Your search keyword '"Ruiting Lan"' showing total 366 results

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

Author

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

Subjects

multilocus variable-number tandem-repeat analysis, acellular vaccine antigenic variation, Bordetella pertussis, global epidemiology, bacteria, dispatch, Medicine, Infectious and parasitic diseases, RC109-216

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.

Published

2010

52. Prevalence of Salmonella Isolates from Chicken and Pig Slaughterhouses and Emergence of Ciprofloxacin and Cefotaxime Co-Resistant S. enterica Serovar Indiana in Henan, China.

Author

Li Bai, Ruiting Lan, Xiuli Zhang, Shenghui Cui, Jin Xu, Yunchang Guo, Fengqin Li, and Ding Zhang

Subjects

Medicine, Science

Abstract

The prevalence of Salmonella from chicken and pig slaughterhouses in Henan, China and antimicrobial susceptibility of these isolates to antibiotics was determined. From 283 chicken samples and 240 pig samples collected, 128 and 70 Salmonella isolates were recovered with an isolation rate of 45.2 and 29.2% respectively. The predominant serovars in chicken samples were S. enterica serovar Enteritidis, S. enterica serovar Hadar and S. enterica serovar Indiana, while those in pig samples were S. enterica serovar Typhimurium, S. enterica serovar Derby and S. enterica serovar Enteritidis. Resistance to ciprofloxacin was 8.6 and 10.0% for isolates from chickens and pigs respectively, whereas resistance to cefotaxime was 5.5 and 8.6%, respectively. Multidrug resistance (resistance to three or more classes of antimicrobial agent) was markedly higher in pig isolates (57.1%) than in chicken isolates (39.8%). Of particular concern was the detection of ciprofloxacin and cefotaxime co-resistant S. enterica serovar Indiana isolates, which pose risk to public health. All 16 S. enterica serovar Indiana isolates detected were resistant to ciprofloxacin, among which 11 were co-resistant to cefotaxime. The S. enterica serovar Indiana isolates accumulated point mutations in quinolone resistance determination regions of gyrA (S83F/D87G or S83F/D87N) and parC (T57S/S80R). Two plasmid mediated quinolone resistant determinants were found with aac (6')-Ib-cr and oqxAB in 16 and 12 S. enterica serovar Indiana isolates respectively. Cefotaxime-resistance of S. enterica serovar Indiana was associated with the acquisition of a blaCTX-M-65 gene. The potential risk of ciprofloxacin and cefotaxime co-resistant S. enterica serovar Indiana infection is a significant concern due to limited alternative treatment options. Reduction of Salmonella in chicken and pig slaughterhouses, in particular, ciprofloxacin and cefotaxime co-resistant S. enterica serovar Indiana will be an important measure to reduce the public health burden of Salmonella infections.

Published

2015

53. Global Population Structure and Evolution of Bordetella pertussis and Their Relationship with Vaccination

Author

Marieke J. Bart, Simon R. Harris, Abdolreza Advani, Yoshichika Arakawa, Daniela Bottero, Valérie Bouchez, Pamela K. Cassiday, Chuen-Sheue Chiang, Tine Dalby, Norman K. Fry, María Emilia Gaillard, Marjolein van Gent, Nicole Guiso, Hans O. Hallander, Eric T. Harvill, Qiushui He, Han G. J. van der Heide, Kees Heuvelman, Daniela F. Hozbor, Kazunari Kamachi, Gennady I. Karataev, Ruiting Lan, Anna Lutyńska, Ram P. Maharjan, Jussi Mertsola, Tatsuo Miyamura, Sophie Octavia, Andrew Preston, Michael A. Quail, Vitali Sintchenko, Paola Stefanelli, M. Lucia Tondella, Raymond S. W. Tsang, Yinghua Xu, Shu-Man Yao, Shumin Zhang, Julian Parkhill, and Frits R. Mooi

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Bordetella pertussis causes pertussis, a respiratory disease that is most severe for infants. Vaccination was introduced in the 1950s, and in recent years, a resurgence of disease was observed worldwide, with significant mortality in infants. Possible causes for this include the switch from whole-cell vaccines (WCVs) to less effective acellular vaccines (ACVs), waning immunity, and pathogen adaptation. Pathogen adaptation is suggested by antigenic divergence between vaccine strains and circulating strains and by the emergence of strains with increased pertussis toxin production. We applied comparative genomics to a worldwide collection of 343 B. pertussis strains isolated between 1920 and 2010. The global phylogeny showed two deep branches; the largest of these contained 98% of all strains, and its expansion correlated temporally with the first descriptions of pertussis outbreaks in Europe in the 16th century. We found little evidence of recent geographical clustering of the strains within this lineage, suggesting rapid strain flow between countries. We observed that changes in genes encoding proteins implicated in protective immunity that are included in ACVs occurred after the introduction of WCVs but before the switch to ACVs. Furthermore, our analyses consistently suggested that virulence-associated genes and genes coding for surface-exposed proteins were involved in adaptation. However, many of the putative adaptive loci identified have a physiological role, and further studies of these loci may reveal less obvious ways in which B. pertussis and the host interact. This work provides insight into ways in which pathogens may adapt to vaccination and suggests ways to improve pertussis vaccines. IMPORTANCE Whooping cough is mainly caused by Bordetella pertussis, and current vaccines are targeted against this organism. Recently, there have been increasing outbreaks of whooping cough, even where vaccine coverage is high. Analysis of the genomes of 343 B. pertussis isolates from around the world over the last 100 years suggests that the organism has emerged within the last 500 years, consistent with historical records. We show that global transmission of new strains is very rapid and that the worldwide population of B. pertussis is evolving in response to vaccine introduction, potentially enabling vaccine escape.

Published

2014

54. Examination of the Anaerobic Growth of Campylobacter concisus Strains

Author

Hoyul Lee, Rena Ma, Michael C. Grimm, Stephen M. Riordan, Ruiting Lan, Ling Zhong, Mark Raftery, and Li Zhang

Subjects

Microbiology, QR1-502

Abstract

Campylobacter concisus is an oral bacterium that is associated with intestinal diseases. C. concisus was previously described as a bacterium that requires H2-enriched microaerobic conditions for growth. The level of H2 in the oral cavity is extremely low, suggesting that C. concisus is unlikely to have a microaerobic growth there. In this study, the anaerobic growth of C. concisus was investigated. The growth of fifty-seven oral C. concisus strains and six enteric C. concisus strains under various atmospheric conditions including anaerobic conditions with and without H2 was examined. The atmospheric conditions were generated using commercially available gas-generation systems. C. concisus putative virulence proteins were identified using mass spectrometry analysis. Under anaerobic conditions, 92% of the oral C. concisus strains (52/57) and all six enteric strains grew without the presence of H2 and the presence of H2 greatly increased C. concisus growth. An oral C. concisus strain was found to express a number of putative virulence proteins and the expression levels of these proteins were not affected by H2. The levels of H2 appeared to affect the optimal growth of C. concisus. This study provides useful information in understanding the natural colonization site and pathogenicity of C. concisus.

Published

2014

55. Comparative genomic hybridization identifies virulence differences in Streptococcus suis.

Author

Han Zheng, Ruiting Lan, Xiao Zheng, Zhigang Cui, Zhijie Liu, Xuemei Bai, Shaobo Ji, Marcelo Gottschalk, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Streptococcus suis is an important zoonotic pathogen. However, identification of virulent S. suis strains is complicated because of the high diversity of the species. Here we evaluated the genetic difference among S. suis strains using comparative genomic hybridization (CGH) and virulence variation in vivo and in vitro. We showed that different clades differed in their ability to activate TLR2/6 in vitro and their capacity to induce cytokine production in vivo as well as their resistance to phagocytosis and survival in vivo. Our data showed the S. suis strains tested can be classified into three groups having differing levels of virulence: epidemic and highly virulent strains were clustered into clade Ia (epidemic and highly virulent group, E/HV group), virulent strains were clustered into clade Ib (virulent group, V group), and intermediately or weakly virulent strains were clustered into other clades (intermediately or weakly virulent group, I/WV group). Our study provided further insight into the genomic and virulence variation of S. suis.

Published

2014

56. Sequential isolation in a patient of Raoultella planticola and Escherichia coli bearing a novel ISCR1 element carrying blaNDM-1.

Author

Juan Li, Ruiting Lan, Yanwen Xiong, Changyun Ye, Min Yuan, Xinfeng Liu, Xia Chen, Deshan Yu, Bin Liu, Wenchao Lin, Xuemei Bai, Yan Wang, Qiangzheng Sun, Yiting Wang, Hongqing Zhao, Qiong Meng, Qiang Chen, Ailan Zhao, and Jianguo Xu

Subjects

Medicine, Science

Abstract

BACKGROUND: The gene for New Delhi metallo-β-lactamase 1 (NDM-1) has been reported to be transmitted via plasmids which are easily transferable and capable of wide distribution. We report the isolation of two NDM-1 producing strains and possible in vivo transfer of blaNDM-1 in a patient. METHODS: Clinical samples were collected for bacterial culture and antibiotic susceptibility testing from a patient during a 34-day hospitalization. The presence of blaNDM-1 was detected by PCR and sequencing. Plasmids of interest were sequenced. Medical records were reviewed for evidence of association between the administration of antibiotics and the acquisition of the NDM-1 resistance. RESULTS: A NDM-1 positive Raoultella planticola was isolated from blood on the ninth day of hospitalization without administration of any carbapenem antibiotics and a NDM-1 positive Escherichia coli was isolated from feces on the 29th day of hospitalization and eight days after imipenem administration. The blaNDM-1 was carried by a 280 kb plasmid pRpNDM1-1 in R. planticola and a 58 kb plasmid pEcNDM1-4 in E. coli. The two plasmids shared a 4812 bp NDM-1-ISCR1 element which was found to be excisable from the plasmid as a free form and transferrable in vitro to a NDM-1 negative plasmid from E. coli. CONCLUSION: blaNDM-1 was embedded in an ISCR1 complex class 1 integron as a novel 4812 bp NDM-1-ISCR1 element. The element was found to be able to self excise to become a free form, which may provide a new vehicle for NDM-1 dissemination. This mechanism could greatly accelerate the spread of NDM-1 mediated broad spectrum β-lactam resistance.

Published

2014

57. Evolution of Seventh Cholera Pandemic and Origin of 1991 Epidemic, Latin America

Author

Connie Lam, Sophie Octavia, Peter Reeves, Lei Wang, and Ruiting Lan

Subjects

Bacteria, Vibrio cholerae, enteric infections, cholera, single nucleotide polymorphisms, pandemic, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Thirty single-nucleotide polymorphisms were used to track the spread of the seventh pandemic caused by Vibrio cholerae. Isolates from the 1991 epidemic in Latin America shared a profile with 1970s isolates from Africa, suggesting a possible origin in Africa. Data also showed that the observed genotypes spread easily and widely.

Published

2010

58. Unique Adaptor Design for AFLP Fingerprinting

Author

Ruiting Lan and Peter R. Reeves

Subjects

Biology (General), QH301-705.5

Published

2000

59. Vibrio cholerae Pathogenic Clones

Author

Anna Salim, Ruiting Lan, and Peter R. Reeves

Subjects

Vibrio cholerae, US Gulf Coast strains, pandemic clones, evolution, classical, El Tor, Medicine, Infectious and parasitic diseases, RC109-216

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.

Published

2005

60. Shiga toxin-producing Escherichia coli in yaks (Bos grunniens) from the Qinghai-Tibetan Plateau, China.

Author

Xiangning Bai, Ailan Zhao, Ruiting Lan, Youquan Xin, Hui Xie, Qiong Meng, Dong Jin, Bo Yu, Hui Sun, Shan Lu, Jianguo Xu, and Yanwen Xiong

Subjects

Medicine, Science

Abstract

Shiga toxin (Stx)-producing Escherichia coli (STEC) are recognized as important human pathogens of public health concern. Many animals are the sources of STEC. In this study we determined the occurrence and characteristics of the STEC in yaks (Bos grunniens) from the Qinghai-Tibetan plateau, China. A total of 728 yak fecal samples was collected from June to August, 2012 and was screened for the presence of the stx 1 and stx 2 genes by TaqMan real-time PCR after the sample was enriched in modified Tryptone Soya Broth. Of the 138 (18.96%) stx 1 and/or stx 2-positive samples, 85 (61.59%) were confirmed to have at least 1 STEC isolate present by culture isolation, from which 128 STEC isolates were recovered. All STEC isolates were serotyped, genotyped by pulsed-field gel electrophoresis (PFGE) and characterized for the presence of 16 known virulence factors. Fifteen different O serogroups and 36 different O:H serotypes were identified in the 128 STEC isolates with 21 and 4 untypable for the O and H antigens respectively. One stx 1 subtype (stx 1a) and 5 stx 2 subtypes (stx 2a, stx 2b, stx 2c, stx 2d and stx 2g) were present in these STEC isolates. Apart from lpfA O157/OI-141, lpfA O157/OI-154, lpfA O113, katP and toxB which were all absent, other virulence factors screened (eaeA, iha, efa1, saa, paa, cnf1, cnf2, astA, subA, exhA and espP) were variably present in the 128 STEC isolates. PFGE were successful for all except 5 isolates and separated them into 67 different PFGE patterns. For the 18 serotypes with 2 or more isolates, isolates of the same serotypes had the same or closely related PFGE patterns, demonstrating clonality of these serotypes. This study was the first report on occurrence and characteristics of STEC isolated from yaks (Bos grunniens) from the Qinghai-Tibetan plateau, China, and extended the genetic diversity and reservoir host range of STEC.

Published

2013

61. An O island 172 encoded RNA helicase regulates the motility of Escherichia coli O157:H7.

Author

Yanmei Xu, Xuefang Xu, Ruiting Lan, Yanwen Xiong, Changyun Ye, Zhihong Ren, Li Liu, Ailan Zhao, Long-Fei Wu, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Enterohaemorrhagic Escherichia coli (EHEC) O157:H7 is a major cause of zoonotic food- and water-borne intestinal infections worldwide with clinical consequences ranging from mild diarrhoea to hemolytic uraemic syndrome. The genome of EHEC O157:H7 contains many regions of unique DNA that are referred to as O islands including the Shiga toxin prophages and pathogenicity islands encoding key virulence factors. However many of these O islands are of unknown function. In this study, genetic analysis was conducted on OI-172 which is a 44,434 bp genomic island with 27 open reading frames. Comparative genome analysis showed that O1-72 is a composite island with progressive gain of genes since O157:H7 evolved from its ancestral O55:H7. A partial OI-172 island was also found in 2 unrelated E. coli strains and 2 Salmonella strains. OI-172 encodes several putative helicases, one of which (Z5898) is a putative DEAH box RNA helicase. To investigate the function of Z5898, a deletion mutant (EDL933ΔZ5898) was constructed in the O157:H7 strain EDL933. Comparative proteomic analysis of the mutant with the wild-type EDL933 found that flagellin was down-regulated in the Z5898 mutant. Motility assay showed that EDL933ΔZ5898 migrated slower than the wild-type EDL933 and electron microscopy found no surface flagella. Quantitative reverse transcription PCR revealed that the fliC expression of EDL933ΔZ5898 was significantly lower while the expression of its upstream regulator gene, fliA, was not affected. Using a fliA and a fliC promoter - green fluorescent protein fusion contruct, Z5898 was found to affect only the fliC promoter activity. Therefore, Z5898 regulates the flagella based motility by exerting its effect on fliC. We conclude that OI-172 is a motility associated O island and hereby name it the MAO island.

Published

2013

62. The prevalence and polymorphisms of zonula occluden toxin gene in multiple Campylobacter concisus strains isolated from saliva of patients with inflammatory bowel disease and controls.

Author

Vikneswari Mahendran, Ye Sing Tan, Stephen M Riordan, Michael C Grimm, Andrew S Day, Daniel A Lemberg, Sophie Octavia, Ruiting Lan, and Li Zhang

Subjects

Medicine, Science

Abstract

Campylobacterconcisus is an oral bacterium. A number of studies detected a significantly higher prevalence of C. concisus in the intestinal tract of patients with inflammatory bowel disease (IBD) as compared to controls. The prevalence of zonula occluden toxin (zot) gene, which encodes a toxin known to increase intestinal permeability, in oral C. concisus strains is unknown. Increased intestinal permeability is a feature of IBD. A total of 56 oral C. concisus strains isolated from 19 patients with IBD and 20 controls were examined (some individuals were colonized with multiple strains). A filtration method was used for isolation of C. concisus from saliva samples. SDS-PAGE was used to define strains. PCR was used to amplify zot from C. concisus strains. Positive PCR products were sequenced and the nucleotides and amino acids were compared. Of the 56 oral C. concisus strains examined, 17 strains (30.4%) were positive for zot. The prevalence of zot-positive oral C. concisus strains was 54.5% in patients with active IBD, which was not significantly different from that in healthy controls (40%). Polymorphisms of C. concisus zot were revealed. zot (808T) , zot (350-351AC) and zot (Multiple) were detected only in patients with IBD, but not in healthy controls. Both zot (808T) and zot (Multiple) alleles resulted in substitution of valine at position 270, which occurred in 36.4% of patients with active IBD but not in healthy controls (P = 0.011). Furthermore, the prevalence of multiple oral C. concisus strains in patients with active IBD was significantly higher than that in healthy controls (P = 0.013). This is the first study reporting the prevalence of zot in human oral C. concisus strains and the polymorphisms of C. concisus zot gene. The data suggest that the possible role of C. concisus strains containing specific polymorphic forms of zot gene in human IBD should be investigated.

Published

2013

63. Development of multiplex PCR assays for the identification of the 33 serotypes of Streptococcus suis.

Author

Zhijie Liu, Han Zheng, Marcelo Gottschalk, Xuemei Bai, Ruiting Lan, Shaobo Ji, Haican Liu, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Streptococcussuis is an important zoonotic agent causing severe diseases in pigs and humans. To date, 33 serotypes of S. suis have been identified based on antigenic differences in the capsular polysaccharide. The capsular polysaccharide synthesis (cps) locus encodes proteins/enzymes that are responsible for capsular production and variation in the capsule structures are the basis of S. suis serotyping. Multiplex and/or simplex PCR assays have been developed for 15 serotypes based on serotype-specific genes in the cps gene cluster. In this study, we developed a set of multiplex PCR (mPCR) assays to identify the 33 currently known S. suis serotypes. To identify serotype-specific genes for mPCR, the entire genomes of reference strains for the 33 serotypes were sequenced using whole genome high-throughput sequencing, and the cps gene clusters from these strains were identified and compared. We developed a set of 4 mPCR assays based on the polysaccharide polymerase gene wzy, one of the serotype-specific genes. The assays can identify all serotypes except for two pairs of serotypes: 1 and 14, and 2 and 1/2, which have no serotype-specific genes between them. The first assay identifies 12 serotypes (serotypes 1 to 10, 1/2, and 14) that are the most frequently isolated from diseased pigs and patients; the second identifies 10 serotypes (serotypes 11 to 21 except 14); the third identifies the remaining 11 serotypes (serotypes 22 to 31, and 33); and the fourth identifies a new cps cluster of S. suis discovered in this study in 16 isolates that agglutinated with antisera for serotypes 29 and 21. The multiplex PCR assays developed in this study provide a rapid and specific method for molecular serotyping of S. suis.

Published

2013

64. Global transcriptional and phenotypic analyses of Escherichia coli O157:H7 strain Xuzhou21 and its pO157_Sal cured mutant.

Author

Hongqing Zhao, Chen Chen, Yanwen Xiong, Xuefang Xu, Ruiting Lan, Haiyin Wang, Xinyue Yao, Xiangning Bai, Xuetong Liu, Qiong Meng, Xiaoai Zhang, Hui Sun, Ailan Zhao, Xuemei Bai, Yuli Cheng, Qiang Chen, Changyun Ye, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Escherichia coli O157:H7 is an important food-borne pathogen that can cause hemorrhagic colitis and hemolytic-uremic syndrome in humans. pO157_Sal, a novel conjugative plasmid is present in a Chinese O157:H7 outbreak strain Xuzhou21. Here we investigated the phenotypic and transcriptional differences between the wild type strain Xuzhou21 and the pO157_Sal cured mutant strain Xuzhou21m. RNA-Seq analysis found that all 52 ORFs encoded on pO157_Sal were transcribed. One hundred and sixty eight chromosomal and pO157 genes were differentially expressed (≥2 fold difference) between Xuzhou21 and Xuzhou21m. Sixty-seven and 101 genes were up-regulated and down-regulated respectively by pO157_Sal including genes related to stress response, adaption and virulence. The plasmid-cured mutant Xuzhou21m grew slower than wild type Xuzhou21 and pO157_Sal plasmid complemented strain Xuzhou21c in M9 medium under the condition of high NaCl or presence of sodium deoxycholate (NaDC), corroborating with the RNA-Seq data. Seven differentially expressed genes are associated with NaDC resistance, including the adenine-specific DNA-methyltransferase gene (dam), multidrug efflux system subunit gene mdtA, hyperosmotically inducible periplasmic protein gene osmY and oxidation-reduction related genes while two differentially expressed genes (osmY and pspD) are likely to be related to resistance to osmotic pressure. A number of differentially expressed genes were virulence associated including four genes encoding T3SS effectors from the chromosome and ehxD from pO157. Through complementation of Xuzhou21m with a plasmid construct carrying the pO157_Sal hha homolog we further showed that the pO157_Sal hha represses the expression of T3SS effectors. These findings demonstrated that the plasmid pO157_Sal affects the transcription of the chromosomal and pO157 plasmid genes and contributes to the enhanced ability to resist stress. We conclude that pO157_Sal plays an important role in regulating global gene expression and affects the virulence and adaptation of E. coli O157:H7.

Published

2013

65. Population structure and evolution of non-O1/non-O139 Vibrio cholerae by multilocus sequence typing.

Author

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

Subjects

Medicine, Science

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.

Published

2013

66. Identification and characterization of a novel Shigella flexneri serotype Yv in China.

Author

Qiangzheng Sun, Ruiting Lan, Jianping Wang, Shengli Xia, Yiting Wang, Yan Wang, Dong Jin, Bo Yu, Yuriy A Knirel, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Shigella flexneri is the major cause of bacterial shigellosis in developing countries. S. flexneri is divided into at least 19 serotypes, the majority of which are modifications of the same basic O-antigen by glucosylation and/or O-acetylation of its sugar residues by phage encoded serotype-converting genes. Recently, a plasmid encoded phosphoethanolamine (PEtN) modification of the O-antigen has been reported, which is responsible for the presence of the MASF IV-1 determinant and results in conversion of traditional serotypes X, 4a and Y to novel serotypes Xv, 4av and Yv, respectively. In this study, we characterized 19 serotype Yv strains isolated in China. A variant of the O-antigen phosphoethanolamine transferase gene opt (formerly called lpt-O) carried by a pSFxv_2-like plasmid was found in serotype Yv strains, which specifies the phosphorylation pattern on the O-antigen of this serotype. For the majority of the O-antigen units, the PEtN modification occurs on Rha(III), while for a minority, modifications occur on both Rha(II) and Rha(III). Serotype-specific gene detection and PFGE analysis suggested that these serotype Yv isolates were originated from serotypes Y, Xv and 2a by acquisition of an opt-carrying plasmid and/or inactivation of serotype-specific gene gtrII or gtrX. These data, combined with those of serotypes Xv and 4av reported earlier, demonstrate that the plasmid-encoded PEtN modification is an important serotype conversion mechanism in S. flexneri, in addition to glucosylation and O-acetylation.

Published

2013

67. A novel Escherichia coli O157:H7 clone causing a major hemolytic uremic syndrome outbreak in China.

Author

Yanwen Xiong, Ping Wang, Ruiting Lan, Changyun Ye, Hua Wang, Jun Ren, Huaiqi Jing, Yiting Wang, Zhemin Zhou, Xuemei Bai, Zhigang Cui, Xia Luo, Ailan Zhao, Yan Wang, Shaomin Zhang, Hui Sun, Lei Wang, and Jianguo Xu

Subjects

Medicine, Science

Abstract

An Escherichia coli O157:H7 outbreak in China in 1999 caused 177 deaths due to hemolytic uremic syndrome. Sixteen outbreak associated isolates were found to belong to a new clone, sequence type 96 (ST96), based on multilocus sequence typing of 15 housekeeping genes. Whole genome sequencing of an outbreak isolate, Xuzhou21, showed that the isolate is phylogenetically closely related to the Japan 1996 outbreak isolate Sakai, both of which share the most recent common ancestor with the US outbreak isolate EDL933. The levels of IL-6 and IL-8 of peripheral blood mononuclear cells induced by Xuzhou21 and Sakai were significantly higher than that induced by EDL933. Xuzhou21 also induced a significantly higher level of IL-8 than Sakai while both induced similar levels of IL-6. The expression level of Shiga toxin 2 in Xuzhou21 induced by mitomycin C was 68.6 times of that under non-inducing conditions, twice of that induced in Sakai (32.7 times) and 15 times higher than that induced in EDL933 (4.5 times). Our study shows that ST96 is a novel clone and provided significant new insights into the evolution of virulence of E. coli O157:H7.

Published

2012

68. Investigation of the enteric pathogenic potential of oral Campylobacter concisus strains isolated from patients with inflammatory bowel disease.

Author

Yazan Ismail, Vikneswari Mahendran, Sophie Octavia, Andrew S Day, Stephen M Riordan, Michael C Grimm, Ruiting Lan, Daniel Lemberg, Thi Anh Tuyet Tran, and Li Zhang

Subjects

Medicine, Science

Abstract

BackgroundCampylobacter concisus, a bacterium colonizing the human oral cavity, has been shown to be associated with inflammatory bowel disease (IBD). This study investigated if patients with IBD are colonized with specific oral C. concisus strains that have potential to cause enteric diseases.MethodologySeventy oral and enteric C. concisus isolates obtained from eight patients with IBD and six controls were examined for housekeeping genes by multilocus sequence typing (MLST), Caco2 cell invasion by gentamicin-protection-assay, protein analysis by mass spectrometry and SDS-PAGE, and morphology by scanning electron microscopy. The whole genome sequenced C. concisus strain 13826 which was isolated from an individual with bloody diarrhea was included in MLST analysis.Principal findingsMLST analysis showed that 87.5% of individuals whose C. concisus belonged to Cluster I had inflammatory enteric diseases (six IBD and one with bloody diarrhea), which was significantly higher than that in the remaining individuals (28.6%) (PConclusionsThis study provides the first evidence that patients with IBD are colonized with specific oral C. concisus strains, with some being EICC strains. C. concisus colonizing intestinal tissues of patients with IBD at least in some instances results from an endogenous colonization of the patient's oral C. concisus and that C. concisus strains undergo natural recombination.

Published

2012

69. Isolation and characterization of cytotoxic, aggregative Citrobacter freundii.

Author

Li Bai, Shengli Xia, Ruiting Lan, Liyun Liu, Changyun Ye, Yiting Wang, Dong Jin, Zhigang Cui, Huaiqi Jing, Yanwen Xiong, Xuemei Bai, Hui Sun, Jin Zhang, Lei Wang, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Citrobacter freundii is an infrequent but established cause of diarrhea in humans. However, little is known of its genetic diversity and potential for virulence. We analyzed 26 isolates, including 12 from human diarrheal patients, 2 from human fecal samples of unknown diarrheal status, and 12 from animals, insects, and other sources. Pulsed field gel electrophoresis using XbaI allowed us to divide the 26 isolates into 20 pulse types, while multi-locus sequence typing using 7 housekeeping genes allowed us to divide the 26 isolates into 6 sequence types (STs) with the majority belonging to 4 STs. We analyzed adhesion and cytotoxicity to HEp-2 cells in these 26 strains. All were found to adhere to HEp-2 cells. One strain, CF74, which had been isolated from a goat, showed the strongest aggregative adhesion pattern. Lactate dehydrogenase (LDH) released from HEp-2 cells was evaluated as a measure of cytotoxicity, averaging 7.46%. Strain CF74 induced the highest level of LDH, 24.3%, and caused >50% cell rounding, detachment, and death. We named strain CF74 "cytotoxic and aggregative C. freundii." Genome sequencing of CF74 revealed that it had acquired 7 genomic islands, including 2 fimbriae islands and a type VI secretion system island, all of which are potential virulence factors. Our results show that aggregative adherence and cytotoxicity play an important role in the pathogenesis of C. freundii.

Published

2012

70. A novel plasmid-encoded serotype conversion mechanism through addition of phosphoethanolamine to the O-antigen of Shigella flexneri.

Author

Qiangzheng Sun, Yuriy A Knirel, Ruiting Lan, Jianping Wang, Sof'ya N Senchenkova, Dong Jin, Alexander S Shashkov, Shengli Xia, Andrei V Perepelov, Qiang Chen, Yan Wang, Haiyin Wang, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Shigella flexneri is the major pathogen causing bacillary dysentery in developing countries. S. flexneri is divided into at least 16 serotypes based on the combination of antigenic determinants present in the O-antigen. All the serotypes (except for serotype 6) share a basic O-unit containing one N-acetyl-d-glucosamine and three l-rhamnose residues, whereas differences between the serotypes are conferred by phage-encoded glucosylation and/or O-acetylation. Serotype Xv is a newly emerged and the most prevalent serotype in China, which can agglutinate with both MASF IV-1 and 7,8 monoclonal antibodies. The factor responsible for the presence of MASF IV-1 (E1037) epitope has not yet been identified. In this study, we analyzed the LPS structure of serotype Xv strains and found that the MASF IV-1 positive phenotype depends on an O-antigen modification with a phosphoethanolamine (PEtN) group attached at position 3 of one of the rhamnose residues. A plasmid carried gene, lpt-O (LPS phosphoethanolamine transferase for O-antigen), mediates the addition of PEtN for serotype Xv and other MASF IV-1 positive strains. These findings reveal a novel serotype conversion mechanism in S. flexneri and show the necessity of further extension of the serotype classification scheme recognizing the MASF IV-1 positive strains as distinctive subtypes.

Published

2012

71. Identification of genes and genomic islands correlated with high pathogenicity in Streptococcus suis using whole genome tiling microarrays.

Author

Xiao Zheng, Han Zheng, Ruiting Lan, Changyun Ye, Yiting Wang, Ji Zhang, Huaiqi Jing, Chen Chen, Mariela Segura, Marcelo Gottschalk, and Jianguo Xu

Subjects

Medicine, Science

Abstract

Streptococcus suis is an important zoonotic pathogen that can cause meningitis and sepsis in both pigs and humans. Infections in humans have been sporadic worldwide but two severe outbreaks occurred in China in recent years, while infections in pigs are a major problem in the swine industry. Some S. suis strains are more pathogenic than others with 2 sequence types (ST), ST1 and ST7, being well recognized as highly pathogenic. We analyzed 31 isolates from 23 serotypes and 25 STs by NimbleGen tiling microarray using the genome of a high pathogenicity (HP) ST1 strain, GZ1, as reference and a new algorithm to detect gene content difference. The number of genes absent in a strain ranged from 49 to 225 with a total of 632 genes absent in at least one strain, while 1346 genes were found to be invariably present in all strains as the core genome of S. suis, accounting for 68% of the GZ1 genome. The majority of genes are located in chromosomal blocks with two or more contiguous genes. Sixty two blocks are absent in two or more strains and defined as regions of difference (RDs), among which 26 are putative genomic islands (GIs). Clustering and statistical analyses revealed that 8 RDs including 6 putative GIs and 21 genes within these RDs are significantly associated with HP. Three RDs encode known virulence related factors including the extracellular factor, the capsular polysaccharide and a SrtF pilus. The strains were divided into 5 groups based on population genetic analysis of multilocus sequence typing data and the distribution of the RDs among the groups revealed gain and loss of RDs in different groups. Our study elucidated the gene content diversity of S. suis and identified genes that potentially promote HP.

Published

2011

72. Computational bacterial genome-wide analysis of phylogenetic profiles reveals potential virulence genes of Streptococcus agalactiae.

Author

Frank Po-Yen Lin, Ruiting Lan, Vitali Sintchenko, Gwendolyn L Gilbert, Fanrong Kong, and Enrico Coiera

Subjects

Medicine, Science

Abstract

The phylogenetic profile of a gene is a reflection of its evolutionary history and can be defined as the differential presence or absence of a gene in a set of reference genomes. It has been employed to facilitate the prediction of gene functions. However, the hypothesis that the application of this concept can also facilitate the discovery of bacterial virulence factors has not been fully examined. In this paper, we test this hypothesis and report a computational pipeline designed to identify previously unknown bacterial virulence genes using group B streptococcus (GBS) as an example. Phylogenetic profiles of all GBS genes across 467 bacterial reference genomes were determined by candidate-against-all BLAST searches,which were then used to identify candidate virulence genes by machine learning models. Evaluation experiments with known GBS virulence genes suggested good functional and model consistency in cross-validation analyses (areas under ROC curve, 0.80 and 0.98 respectively). Inspection of the top-10 genes in each of the 15 virulence functional groups revealed at least 15 (of 119) homologous genes implicated in virulence in other human pathogens but previously unrecognized as potential virulence genes in GBS. Among these highly-ranked genes, many encode hypothetical proteins with possible roles in GBS virulence. Thus, our approach has led to the identification of a set of genes potentially affecting the virulence potential of GBS, which are potential candidates for further in vitro and in vivo investigations. This computational pipeline can also be extended to in silico analysis of virulence determinants of other bacterial pathogens.

Published

2011

73. Rates of mutation and host transmission for an Escherichia coli clone over 3 years.

Author

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

Subjects

Medicine, Science

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.

Published

2011

74. Conditions for the evolution of gene clusters in bacterial genomes.

Author

Sara Ballouz, Andrew R Francis, Ruiting Lan, and Mark M Tanaka

Subjects

Biology (General), QH301-705.5

Abstract

Genes encoding proteins in a common pathway are often found near each other along bacterial chromosomes. Several explanations have been proposed to account for the evolution of these structures. For instance, natural selection may directly favour gene clusters through a variety of mechanisms, such as increased efficiency of coregulation. An alternative and controversial hypothesis is the selfish operon model, which asserts that clustered arrangements of genes are more easily transferred to other species, thus improving the prospects for survival of the cluster. According to another hypothesis (the persistence model), genes that are in close proximity are less likely to be disrupted by deletions. Here we develop computational models to study the conditions under which gene clusters can evolve and persist. First, we examine the selfish operon model by re-implementing the simulation and running it under a wide range of conditions. Second, we introduce and study a Moran process in which there is natural selection for gene clustering and rearrangement occurs by genome inversion events. Finally, we develop and study a model that includes selection and inversion, which tracks the occurrence and fixation of rearrangements. Surprisingly, gene clusters fail to evolve under a wide range of conditions. Factors that promote the evolution of gene clusters include a low number of genes in the pathway, a high population size, and in the case of the selfish operon model, a high horizontal transfer rate. The computational analysis here has shown that the evolution of gene clusters can occur under both direct and indirect selection as long as certain conditions hold. Under these conditions the selfish operon model is still viable as an explanation for the evolution of gene clusters.

Published

2010

75. Derivation of Escherichia coli O157:H7 from its O55:H7 precursor.

Author

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

Subjects

Medicine, Science

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.

Published

2010

76. A recalibrated molecular clock and independent origins for the cholera pandemic clones.

Author

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

Subjects

Medicine, Science

Abstract

Cholera, caused by Vibrio cholerae, erupted globally from South Asia in 7 pandemics, but there were also local outbreaks between the 6(th) (1899-1923) and 7(th) (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 7(th) pandemic clone, while the 6(th) 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 6(th) pandemic isolate, and compared them with the published 7(th) 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 7(th) 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 6(th) and 7(th) 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.

Published

2008

77. Molecular Basis of Ribotype Variation in the Seventh Pandemic Clone and its O139 Variant of Vibrio cholerae

Author

Ruiting Lan and Peter R Reeves

Subjects

rrn recombination, seventh pandemic, O139, Vibrio cholerae, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Ribotyping has been widely used to characterise the seventh pandemic clone including South American and O139 variants which appeared in 1991 and 1992 respectively. To reveal the molecular basis of ribotype variation we analysed the rrn operons and their flanking regions. All but one variation detected by BglI, the most discriminatory enzyme, was found to be due to changes within the rrn operons, resulting from recombination between operons. The recombinants are detected because of the presence of a BglI site in the 16S gene in three of the nine rrn operons and/or changes of intergenic spacer types of which four variants were identified. As the frequency of rrn recombination is high, ribotyping becomes a less useful tool for evolutionary studies and long term monitoring of the pathogenic clones of Vibrio cholerae as variation could undergo precise reversion by the same recombination event.

Published

1998

78. Genomic diversity of Salmonella enterica serovar Typhimurium isolated from chicken processing facilities in New South Wales, Australia.

Author

Bandaranayake, Samitha, Williamson, Sarah, Stewart, Jack, Payne, Michael, Kaur, Sandeep, Qinning Wang, Sintchenko, Vitali, Pavic, Anthony, and Ruiting Lan

Subjects

SALMONELLA enterica serovar typhimurium, CONTAMINATION of poultry, POULTRY products, CHICKENS, GENOMICS, SALMONELLA typhimurium, SALMONELLA enterica

Abstract

Contamination of poultry products by Salmonella enterica serovar Typhimurium (STm) is a major cause of foodborne infections and outbreaks. This study aimed to assess the diversity and antimicrobial resistance (AMR) carriage of STm in three chicken processing plants using genomic sequencing. It also aimed to investigate whether any particular strain types were associated with cases of human illness. Multilevel genome typing (MGT) was used to analyze 379 STm isolates from processed chicken carcasses. The diversity of chicken STm sequence types (STs) increased from MGT1 (2 STs) to MGT9 (257 STs). STs at MGT5 to MGT9 levels that were unique to one processing plant and shared among the processing plants were identified, likely reflecting the diversity of STm at their farm source. Fifteen medium resolution MGT5 STs matched those from human infections in Australia and globally. However, no STs matched between the chicken and human isolates at high resolution levels (MGT8 or MGT9), indicating the two STm populations were phylogenetically related but were unlikely to be directly epidemiologically linked. AMR genes were rare, with only a blaTEM-1 gene carried by a 95 kb IncI1 Alpha plasmid being identified in 20 isolates. In conclusion, subpopulations that were widespread in processing plants and had caused human infections were described using MGT5 STs. In this STM population, AMR was rare with only sporadic resistance to a single drug class observed. The genomic analysis of STm from chicken processing plants in this study provided insights into STm that contaminate meat chickens early in the food production chain. [ABSTRACT FROM AUTHOR]

Published

2024

79. Emergence of Poultry-Associated Human Salmonella enterica Serovar Abortusovis Infections, New South Wales, Australia.

Author

Payne, Michael, Williamson, Sarah, Qinning Wang, Xiaomei Zhang, Sintchenko, Vitali, Pavic, Anthony, and Ruiting Lan

Subjects

SALMONELLA enterica, SALMONELLA enterica serovar Typhi, MISCARRIAGE, GENETIC markers, SALMONELLA, HUMAN beings

Abstract

Salmonella enterica serovar Abortusovis is an ovineadapted pathogen that causes spontaneous abortion. Salmonella Abortusovis was reported in poultry in 2009 and has since been reported in human infections in New South Wales, Australia. Phylogenomic analysis revealed a clade of 51 closely related isolates from Australia originating in 2004. That clade was genetically distinct from ovine-associated isolates. The clade was widespread in New South Wales poultry production facilities but was only responsible for sporadic human infections. Some known virulence factors associated with human infections were only found in the poultry-associated clade, some of which were acquired through prophages and plasmids. Furthermore, the ovine-associated clade showed signs of genome decay, but the poultry-associated clade did not. Those genomic changes most likely led to differences in host range and disease type. Surveillance using the newly identified genetic markers will be vital for tracking Salmonella Abortusovis transmission in animals and to humans and preventing future outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

80. Genomic epidemiology and multilevel genome typing ofBordetella pertussis

Author

Michael Payne, Zheng Xu, Dalong Hu, Sandeep Kaur, Sophie Octavia, Vitali Sintchenko, and Ruiting Lan

Abstract

Bordetella pertussisis responsible for the respiratory infectious disease pertussis (or whooping cough), which causes one of the most severe diseases in infants, although it can be prevented by whole cell and acellular vaccines. The recent resurgence of pertussis is partially due to pathogen adaptation to vaccines as well as resistance to antimicrobials. Surveillance of current circulating and emerging strains is therefore vital to understand the risks they pose to public health. Although there is increased genomics based typing, a genomic nomenclature for this pathogen has not been well established. Here, we implemented the Multilevel Genome Typing (MGT) system forB. pertussiswith five levels of resolution, which provide targeted typing of relevant lineages as well as discrimination of closely related strains at the finest scale. The low resolution levels can describe the distribution of alleles of major vaccine antigen genes such asptxP, fim3, fhaBandprnas well as temporal and spatial trends within theB. pertussisglobal population. Mid-resolution levels enables typing of antibiotic resistant lineages and Prn deficient lineages within theptxP3clade. High resolution levels can capture small-scale epidemiology such as local transmission events and has comparable resolution to existing genomic methods of strain relatedness assessment. The scheme offers stable MGT type assignments aiding harmonisation of typing and communication between laboratories. The scheme is available atwww.mgtdb.unsw.edu.au/pertussis/is regularly updated from global data repositories and accepts public data submissions. The MGT scheme provides a comprehensive, robust, and scalable system for global surveillance ofB. pertussis.

Published

2023

81. SaLTy: a novelStaphylococcus aureusLineage Typer

Author

Liam Cheney, Michael Payne, Sandeep Kaur, and Ruiting Lan

Abstract

Staphylococcus aureusasymptomatically colonises 30% of humans and in 2017 was associated with 20,000 deaths in the USA alone. DividingS. aureusinto smaller sub-groups can reveal the emergence of distinct sub-populations with varying potential to cause infections. Despite multiple molecular typing methods categorising such sub-groups, they do not take full advantage ofS. aureusWGS when describing the fundamental population structure of the species.In this study, we developedStaphylococcus aureusLineage Typing (SaLTy), which rapidly divides the species into 61 phylogenetically congruent lineages. Alleles of three core genes were identified that uniquely define the 61 lineages and were used for SaLTy typing. SaLTy was validated on 5,000 genomes and 99.12% (4,956/5,000) of isolates were assigned the correct lineage.We compared SaLTy lineages to previously calculated clonal complexes (CCs) from BIGSdb (n=21,173). SALTy improves on CCs by grouping isolates congruently with phylogenetic structure. SaLTy lineages were further used to describe the carriage ofStaphylococcalchromosomal cassette containingmecA(SCCmec) which is carried by methicillin-resistantS. aureus(MRSA). Most lineages had isolates lacking SCCmecand the four largest lineages varied in SCCmecover time. Classifying isolates into SaLTy lineages, which were further SCCmectyped, allowed SaLTy to describe high-level MRSA epidemiologyWe provide SALTy as a simple typing method that defines phylogenetic lineages (https://github.com/LanLab/SaLTy). SALTy is highly accurate and can quickly analyse large amounts ofS. aureusWGS. SALTy will aid the characterisation ofS. aureuspopulations and the ongoing surveillance of sub-groups that threaten human health.

Published

2023

82. MGTdb: A web service and database for studying the global and local genomic epidemiology of bacterial pathogens

Author

Sandeep Kaur, Michael Payne, Lijuan Luo, Sophie Octavia, Mark M. Tanaka, Vitali Sintchenko, and Ruiting Lan

Subjects

Genomics, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, Alleles, Genome, Bacterial, Information Systems, Multilocus Sequence Typing

Abstract

Multilevel genome typing (MGT) enables the genomic characterization of bacterial isolates and the relationships among them. The MGT system describes an isolate using multiple multilocus sequence typing (MLST) schemes, referred to as levels. Thus, for a new isolate, sequence types (STs) assigned at multiple precisely defined levels can be used to type isolates at multiple resolutions. The MGT designation for isolates is stable, and assignment is faster than existing approaches. MGT’s utility has been demonstrated in multiple species.This paper presents a publicly accessible web service called MGTdb, which enables the assignment of MGT sequence types to isolates, along with their storage, retrieval and analysis. The MGTdb web service enables upload of genome data as sequence reads or alleles, which are processed and assigned MGT identifiers. Additionally, any newly sequenced isolates deposited in NCBI Sequence Read Archive are also regularly retrieved (currently daily), processed, assigned MGT and made publicly available in MGTdb. Interactive visualisation tools are presented to assist analysis, along with capabilities to download publicly available isolates and assignments for use with external software.MGTdb is currently available for Salmonella enterica serovars Typhimurium and Enteritidis, and Vibrio cholerae. We demonstrate the usability of MGTdb through three case studies to study the long-term national surveillance of S. Typhimurium, and the local epidemiology and outbreaks of S. Typhimurium, and the global epidemiology of V. cholerae. Thus, MGTdb enables epidemiological and microbiological investigations at multiple levels of resolution for all publicly available isolates of these pathogens.Database URLhttps://mgtdb.unsw.edu.au

Published

2022

83. Integrating proteomic data with metabolic modelling provides insight into key pathways ofBordetella pertussisbiofilms

Author

Hiroki Suyama, Laurence Don Wai Luu, Ling Zhong, Mark J. Raftery, and Ruiting Lan

Abstract

Pertussis, commonly known as whooping cough is a severe respiratory disease caused by the bacterium,Bordetella pertussis. Despite widespread vaccination, pertussis resurgence has been observed globally. The development of the current acellular vaccine (ACV) has been based on planktonic studies. However, recent studies have shown thatB. pertussisreadily forms biofilms. A better understanding ofB. pertussisbiofilms is important for developing novel vaccines that can target all aspects ofB. pertussisinfection. This study compared the proteomic expression of biofilm and planktonicB. pertussiscells to identify key changes between the conditions. Major differences were identified in virulence factors including an upregulation of toxins (adenylate cyclase toxin and dermonecrotic toxin) and downregulation of pertactin and type III secretion system proteins in biofilm cells. To further dissect metabolic pathways that are altered during the biofilm lifestyle, the proteomic data was then incorporated into a genome scale metabolic model using the integrative metabolic analysis tool (iMAT). The analysis revealed that planktonic cells utilised the glyoxylate shunt while biofilm cells completed the full tricarboxylic acid cycle. Differences in processing aspartate, arginine and alanine were identified as well as unique export of valine out of biofilm cells which may have a role in inter-bacterial communication and regulation. Finally, increased polyhydroxybutyrate accumulation and superoxide dismutase activity in biofilm cells may contribute to increased persistence during infection. Taken together, this study modelled major proteomic and metabolic changes that occur in biofilm cells which helps lay the groundwork for further understandingB. pertussispathogenesis.

Published

2022

84. Citrobacter freundii Activation of NLRP3 Inflammasome via the Type VI Secretion System

Author

Qin Liu, Yuchun Xiao, Xianping Li, Huifang Cao, Liyun Liu, Guangxun Meng, Rong Deng, Wenjie Jin, Zhihong Ren, Liqiong Song, Guy Tran Van Nhieu, and Ruiting Lan

Subjects

0301 basic medicine, Inflammasomes, Interleukin-1beta, 030106 microbiology, Caspase 1, Pyrin domain, Microbiology, Mice, 03 medical and health sciences, NLR Family, Pyrin Domain-Containing 3 Protein, Pyroptosis, medicine, Animals, Immunology and Allergy, Secretion, Type VI secretion system, biology, Chemistry, Macrophages, Interleukin, Inflammasome, Type VI Secretion Systems, biology.organism_classification, Citrobacter freundii, 030104 developmental biology, Infectious Diseases, bacteria, medicine.drug

Abstract

Citrobacter freundii is a significant cause of human infections, responsible for food poisoning, diarrhea, and urinary tract infections. We previously identified a highly cytotoxic and adhesive C. freundii strain CF74 expressing a type VI secretion system (T6SS). In this study, we showed that in mice-derived macrophages, C. freundii CF74 activated the Nucleotide Oligomerization Domain -Like Receptor Family, Pyrin Domain Containing 3(NLRP3) inflammasomes in a T6SS-dependent manner. The C. freundii T6SS activated the inflammasomes mainly through caspase 1 and mediated pyroptosis of macrophages by releasing the cleaved gasdermin-N domain. The CF74 T6SS was required for flagellin-induced interleukin 1β release by macrophages. We further show that the T6SS tail component and effector, hemolysin co-regulation protein-2 (Hcp-2), was necessary and sufficient to trigger NLRP3 inflammasome activation. In vivo, the T6SS played a key role in mediating interleukin 1β secretion and the survival of mice during C. freundii infection in mice. These findings provide novel insights into the role of T6SS in the pathogenesis of C. freundii.

Published

2020

85. Early termination of the Shiga toxin transcript generates a regulatory small RNA

Author

Brandon M Sy, Jai J. Tree, and Ruiting Lan

Subjects

Small RNA, viruses, Sigma Factor, Host Factor 1 Protein, Regulatory Sequences, Ribonucleic Acid, Microbiology, noncoding RNA, Bacterial Proteins, Lysogenic cycle, Humans, Promoter Regions, Genetic, Lysogeny, Multidisciplinary, biology, Escherichia coli Proteins, RNA, Shiga toxin, Gene Expression Regulation, Bacterial, Biological Sciences, Non-coding RNA, ncRNA, Bacteriophage lambda, Cell biology, Lytic cycle, Enterohemorrhagic Escherichia coli, Antitermination, Hemolytic-Uremic Syndrome, biology.protein, RNA, Small Untranslated, sRNA, lambda phage, rpoS

Abstract

Significance Enterohemorrhagic E. coli is a significant human pathogen that can cause severe disease due to the release of Shiga toxins. The toxins are encoded within lysogenic bacteriophage and controlled by antitermination of the phage late promoter, PR′. This promoter is always active, but terminated immediately downstream during lysogeny. A byproduct of antitermination regulation is transcription of a short RNA that is thought to be nonfunctional. Here we demonstrate that in Shiga toxin-encoding phages, this short RNA is a Hfq-binding regulatory small RNA. The small RNA represses toxin production threefold under lysogenic conditions and promotes high cell density growth. Lysogenic bacteriophages are highly abundant and our results suggest that antiterminated phage promoters may be a rich source of regulatory RNAs., Enterohemorrhagic Escherichia coli is a significant human pathogen that causes disease ranging from hemorrhagic colitis to hemolytic uremic syndrome. The latter can lead to potentially fatal renal failure and is caused by the release of Shiga toxins that are encoded within lambdoid bacteriophages. The toxins are encoded within the late transcript of the phage and are regulated by antitermination of the PR′ late promoter during lytic induction of the phage. During lysogeny, the late transcript is prematurely terminated at tR′ immediately downstream of PR′, generating a short RNA that is a byproduct of antitermination regulation. We demonstrate that this short transcript binds the small RNA chaperone Hfq, and is processed into a stable 74-nt regulatory small RNA that we have termed StxS. StxS represses expression of Shiga toxin 1 under lysogenic conditions through direct interactions with the stx1AB transcript. StxS acts in trans to activate expression of the general stress response sigma factor, RpoS, through direct interactions with an activating seed sequence within the 5′ UTR. Activation of RpoS promotes high cell density growth under nutrient-limiting conditions. Many phages utilize antitermination to regulate the lytic/lysogenic switch and our results demonstrate that short RNAs generated as a byproduct of this regulation can acquire regulatory small RNA functions that modulate host fitness.

Published

2020

86. Surfaceome analysis of Australian epidemic Bordetella pertussis reveals potential vaccine antigens

Author

Chelsea Aitken, Ling Zhong, Mark J. Raftery, Ruiting Lan, Sophie Octavia, Vitali Sintchenko, and Laurence Don Wai Luu

Subjects

Proteomics, Protein moonlighting, Bordetella pertussis, Cell Survival, Whooping Cough, 030231 tropical medicine, Virulence, Biology, 03 medical and health sciences, 0302 clinical medicine, Antigen, Humans, SNP, Trypsin, Virulence Factors, Bordetella, 030212 general & internal medicine, Epidemics, Pertussis Vaccine, Genetics, Antigens, Bacterial, Dose-Response Relationship, Drug, General Veterinary, General Immunology and Microbiology, Australia, Public Health, Environmental and Occupational Health, cyaA, biology.organism_classification, Infectious Diseases, Proteome, Molecular Medicine, Bacterial outer membrane, Bacterial Outer Membrane Proteins

Abstract

Since acellular vaccines (ACV) were introduced in Australia, epidemic Bordetella pertussis strains changed from single nucleotide polymorphism (SNP) cluster II to SNP cluster I. Our previous proteomic analysis identified potential proteomic adaptations in the whole cell and secretome of SNP cluster I. Additionally, current ACVs were shown to be less efficacious against cluster I in mice models and there is a pressing need to discover new antigens to improve the ACV. One important source of novel antigens is the surfaceome. Therefore, in this study we established surface shaving in B. pertussis to compare the surfaceome of SNP cluster I (L1423) and II (L1191), and identify novel surface antigens for vaccine development. Surface shaving using 1 μg of trypsin for 5 min identified 126 proteins with the most abundant being virulence-associated and known outer membrane proteins. Cell viability counts showed minimal lysis from shaving. The proportion of immunogenic proteins was higher in the surfaceome than in the whole cell and secretome. Key differences in the surfaceome were identified between SNP cluster I and II, consistent with those identified in the whole cell proteome and secretome. These differences include unique transport proteins and decreased immunogenic proteins in L1423, and provides further evidence of proteomic adaptation in SNP cluster I. Finally, a comparison of proteins in each sub-proteome identified 22 common proteins. These included 11 virulence proteins (Prn, PtxA, FhaB, CyaA, TcfA, SphB1, Vag8, BrkA, BopD, Bsp22 and BipA) and 11 housekeeping proteins (TuF, CtpA, TsF, OmpH, GltA, SucC, SucD, FusA, GroEL, BP3330 and BP3561) which were immunogenic, essential and consistently expressed thus demonstrating their potential as future targets. This study established surface shaving in B. pertussis, confirmed key expression differences and identified unknown surface proteins which may be potential vaccine antigens.

Published

2020

87. Genomic dissection of the most prevalent Listeria monocytogenes clone, sequence type ST87, in China

Author

Yiqian Wang, Hui Sun, Lijuan Luo, Changyun Ye, Ruiting Lan, Yan Wang, Jianguo Xu, Hong Wang, and Qun Li

Subjects

China, lcsh:QH426-470, Prophages, lcsh:Biotechnology, Biology, medicine.disease_cause, Genomic comparative analysis, Genome, Polymorphism, Single Nucleotide, 03 medical and health sciences, ST87, Listeria monocytogenes, Genomic island, lcsh:TP248.13-248.65, Genetics, medicine, Gene, Prophage, Phylogeny, 030304 developmental biology, Whole genome sequencing, 0303 health sciences, Virulence, 030306 microbiology, Pan-genome, Genomics, Pathogenicity island, lcsh:Genetics, Multigene Family, Genome, Bacterial, Biotechnology, Research Article, Plasmids

Abstract

Background Listeria monocytogenes consists of four lineages that occupy a wide variety of ecological niches. Sequence type (ST) 87 (serotype 1/2b), belonging to lineage I, is one of the most common STs isolated from food products, food associated environments and sporadic listeriosis in China. Here, we performed a comparative genomic analysis of the L. monocytogenes ST87 clone by sequencing 71 strains representing a diverse range of sources, different geographical locations and isolation years. Results The core genome and pan genome of ST87 contained 2667 genes and 3687 genes respectively. Phylogenetic analysis based on core genome SNPs divided the 71 strains into 10 clades. The clinical strains were distributed among multiple clades. Four clades contained strains from multiple geographic regions and showed high genetic diversity. The major gene content variation of ST87 genomes was due to putative prophages, with eleven hotspots of the genome that harbor prophages. All strains carry an intact CRISRP/Cas system. Two major CRISPR spacer profiles were found which were not clustered phylogenetically. A large plasmid of about 90 Kb, which carried heavy metal resistance genes, was found in 32.4% (23/71) of the strains. All ST87 strains harbored the Listeria pathogenicity island (LIPI)-4 and a unique 10-open read frame (ORF) genomic island containing a novel restriction-modification system. Conclusion Whole genome sequence analysis of L. monocytogenes ST87 enabled a clearer understanding of the population structure and the evolutionary history of ST87 L. monocytogenes in China. The novel genetic elements identified may contribute to its virulence and adaptation to different environmental niches. Our findings will be useful for the development of effective strategies for the prevention and treatment of listeriosis caused by this prevalent clone.

Published

2019

88. Cluster-specific gene markers enhance

Author

Xiaomei, Zhang, Michael, Payne, Thanh, Nguyen, Sandeep, Kaur, and Ruiting, Lan

Subjects

Genomic Methodologies, cluster-specific gene markers, enteroinvasive E. coli, phylogenetic clusters, serotyping, Bacterial Proteins, Multigene Family, Databases, Genetic, Escherichia coli, Cluster Analysis, Computer Simulation, Shigella, Serotyping, Phylogeny, Research Articles

Abstract

Shigella and enteroinvasive Escherichia coli (EIEC) cause human bacillary dysentery with similar invasion mechanisms and share similar physiological, biochemical and genetic characteristics. Differentiation of Shigella from EIEC is important for clinical diagnostic and epidemiological investigations. However, phylogenetically, Shigella and EIEC strains are composed of multiple clusters and are different forms of E. coli , making it difficult to find genetic markers to discriminate between Shigella and EIEC. In this study, we identified 10 Shigella clusters, seven EIEC clusters and 53 sporadic types of EIEC by examining over 17000 publicly available Shigella and EIEC genomes. We compared Shigella and EIEC accessory genomes to identify cluster-specific gene markers for the 17 clusters and 53 sporadic types. The cluster-specific gene markers showed 99.64% accuracy and more than 97.02% specificity. In addition, we developed a freely available in silico serotyping pipeline named Shigella EIEC Cluster Enhanced Serotype Finder (ShigEiFinder) by incorporating the cluster-specific gene markers and established Shigella and EIEC serotype-specific O antigen genes and modification genes into typing. ShigEiFinder can process either paired-end Illumina sequencing reads or assembled genomes and almost perfectly differentiated Shigella from EIEC with 99.70 and 99.74% cluster assignment accuracy for the assembled genomes and read mapping respectively. ShigEiFinder was able to serotype over 59 Shigella serotypes and 22 EIEC serotypes and provided a high specificity of 99.40% for assembled genomes and 99.38% for read mapping for serotyping. The cluster-specific gene markers and our new serotyping tool, ShigEiFinder (installable package: https://github.com/LanLab/ShigEiFinder, online tool: https://mgtdb.unsw.edu.au/ShigEiFinder/), will be useful for epidemiological and diagnostic investigations.

Published

2021

89. Cluster-specific gene markers enhance Shigella and enteroinvasive Escherichia coli in silico serotyping

Author

Sandeep Kaur, Xiaomei Zhang, Thanh Vinh Nguyen, Ruiting Lan, and Michael Payne

Subjects

Serotype, Genetics, Genetic marker, In silico, medicine, Shigella, Typing, General Medicine, Biology, medicine.disease_cause, Enteroinvasive Escherichia coli, Genome, Illumina dye sequencing

Abstract

Shigella and enteroinvasive Escherichia coli (EIEC) cause human bacillary dysentery with similar invasion mechanisms and share similar physiological, biochemical and genetic characteristics. Differentiation of Shigella from EIEC is important for clinical diagnostic and epidemiological investigations. However, phylogenetically, Shigella and EIEC strains are composed of multiple clusters and are different forms of E. coli , making it difficult to find genetic markers to discriminate between Shigella and EIEC. In this study, we identified 10 Shigella clusters, seven EIEC clusters and 53 sporadic types of EIEC by examining over 17000 publicly available Shigella and EIEC genomes. We compared Shigella and EIEC accessory genomes to identify cluster-specific gene markers for the 17 clusters and 53 sporadic types. The cluster-specific gene markers showed 99.64% accuracy and more than 97.02% specificity. In addition, we developed a freely available in silico serotyping pipeline named Shigella EIEC Cluster Enhanced Serotype Finder (ShigEiFinder) by incorporating the cluster-specific gene markers and established Shigella and EIEC serotype-specific O antigen genes and modification genes into typing. ShigEiFinder can process either paired-end Illumina sequencing reads or assembled genomes and almost perfectly differentiated Shigella from EIEC with 99.70 and 99.74% cluster assignment accuracy for the assembled genomes and read mapping respectively. ShigEiFinder was able to serotype over 59 Shigella serotypes and 22 EIEC serotypes and provided a high specificity of 99.40% for assembled genomes and 99.38% for read mapping for serotyping. The cluster-specific gene markers and our new serotyping tool, ShigEiFinder (installable package: https://github.com/LanLab/ShigEiFinder, online tool: https://mgtdb.unsw.edu.au/ShigEiFinder/), will be useful for epidemiological and diagnostic investigations.

Published

2021

90. Comparative genomics of Chinese and international isolates of

Author

Lijuan, Luo, Hong, Wang, Michael J, Payne, Chelsea, Liang, Li, Bai, Han, Zheng, Zhengdong, Zhang, Ling, Zhang, Xiaomei, Zhang, Guodong, Yan, Nianli, Zou, Xi, Chen, Ziting, Wan, Yanwen, Xiong, Ruiting, Lan, and Qun, Li

Subjects

Escherichia, Canada, China, Virulence Factors, Prophages, High-Throughput Nucleotide Sequencing, population structure, Genomics, Sequence Analysis, DNA, Pathogens and Epidemiology, Poultry, United States, Europe, Escherichia albertii, virulence, transmissible elements, multidrug resistance, Drug Resistance, Multiple, Bacterial, Africa, species-specific marker genes, Animals, Humans, Phylogeny, Research Articles, Plasmids

Abstract

Escherichia albertii is a recently recognized species in the genus Escherichia that causes diarrhoea. The population structure, genetic diversity and genomic features have not been fully examined. Here, 169 E. albertii isolates from different sources and regions in China were sequenced and combined with 312 publicly available genomes (from additional 14 countries) for genomic analyses. The E. albertii population was divided into two clades and eight lineages, with lineage 3 (L3), L5 and L8 more common in China. Clinical isolates were observed in all clades/lineages. Virulence genes were found to be distributed differently among lineages: subtypes of the intimin encoding gene eae and the cytolethal distending toxin gene cdtB were lineage associated, and the second type three secretion system (ETT2) island was truncated in L3 and L6. Seven new eae subtypes and one new cdtB subtype (cdtB-VI) were identified. Alarmingly, 85.9 % of the Chinese E. albertii isolates were predicted to be multidrug-resistant (MDR) with 35.9 % harbouring genes capable of conferring resistance to 10 to 14 different drug classes. The majority of the MDR isolates were of poultry source from China and belonged to four sequence types (STs) [ST4638, ST4479, ST4633 and ST4488]. Thirty-four plasmids with some carrying MDR and virulence genes, and 130 prophages were identified from 17 complete E. albertii genomes. The 130 intact prophages were clustered into five groups, with group five prophages harbouring more virulence genes. We further identified three E. albertii specific genes as markers for the identification of this species. Our findings provided fundamental insights into the population structure, virulence variation and drug resistance of E. albertii .

Published

2021

91. Rapid Surface Shaving for Proteomic Identification of Novel Surface Antigens for Vaccine Development

Author

Laurence Don Wai Luu and Ruiting Lan

Subjects

Colony-forming unit, integumentary system, medicine.diagnostic_test, Chemistry, Trypsin, Proteomics, Bacterial cell structure, Epitope, Flow cytometry, Cell biology, Immune system, Antigen, medicine, medicine.drug

Abstract

The bacterial cell surface (surfaceome) is the first site encountered by immune cells and is thus an important site for immune recognition. As such, the characterization of bacterial surface proteins can lead to the discovery of novel antigens for potential vaccine development. In this chapter, we describe a rapid 5-min surface shaving proteomics protocol where live bacterial cells are incubated with trypsin and surface peptides are "shaved" off. The shaved peptides are subsequently identified with liquid chromatography-tandem mass spectrometry (LC-MS/MS). Several checkpoints, including colony forming unit (CFU) counts, flow cytometry, and a false positive unshaved control, are introduced to ensure cell viability/membrane integrity are maintained and that proteins identified are true surface proteins. The protein topology of shaved peptides can be bioinformatically confirmed for surface location. Surface shaving facilitates identification of surface proteins expressed under different conditions, by different strains as well as highly abundant essential and immunogenic bacterial surface antigens for potential vaccine development.

Published

2021

92. Rapid Surface Shaving for Proteomic Identification of Novel Surface Antigens for Vaccine Development

Author

Laurence Don Wai, Luu and Ruiting, Lan

Subjects

Proteomics, Antigens, Bacterial, Vaccines, Bacteria, Bacterial Proteins, Tandem Mass Spectrometry, Antigens, Surface, Membrane Proteins, Peptides, Chromatography, Liquid

Abstract

The bacterial cell surface (surfaceome) is the first site encountered by immune cells and is thus an important site for immune recognition. As such, the characterization of bacterial surface proteins can lead to the discovery of novel antigens for potential vaccine development. In this chapter, we describe a rapid 5-min surface shaving proteomics protocol where live bacterial cells are incubated with trypsin and surface peptides are "shaved" off. The shaved peptides are subsequently identified with liquid chromatography-tandem mass spectrometry (LC-MS/MS). Several checkpoints, including colony forming unit (CFU) counts, flow cytometry, and a false positive unshaved control, are introduced to ensure cell viability/membrane integrity are maintained and that proteins identified are true surface proteins. The protein topology of shaved peptides can be bioinformatically confirmed for surface location. Surface shaving facilitates identification of surface proteins expressed under different conditions, by different strains as well as highly abundant essential and immunogenic bacterial surface antigens for potential vaccine development.

Published

2021

93. Improved Genomic Identification, Clustering, and Serotyping of Shiga Toxin-Producing

Author

Xiaomei, Zhang, Michael, Payne, Sandeep, Kaur, and Ruiting, Lan

Subjects

metagenomics, Shiga-Toxigenic Escherichia coli, animal diseases, Escherichia coli Proteins, non-O157:H7 STEC serotypes, Genomics, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, Serogroup, cluster/serotype-specific gene markers, in silico STEC tying pipeline STECFinder, STEC phylogenetic clusters, fluids and secretions, Cellular and Infection Microbiology, STEC O157:H7, bacteria, Cluster Analysis, Humans, STEC serotyping, Serotyping, Adhesins, Bacterial, Escherichia coli Infections, Phylogeny, Original Research

Abstract

Shiga toxin-producing Escherichia coli (STEC) have more than 470 serotypes. The well-known STEC O157:H7 serotype is a leading cause of STEC infections in humans. However, the incidence of non-O157:H7 STEC serotypes associated with foodborne outbreaks and human infections has increased in recent years. Current detection and serotyping assays are focusing on O157 and top six (“Big six”) non-O157 STEC serogroups. In this study, we performed phylogenetic analysis of nearly 41,000 publicly available STEC genomes representing 460 different STEC serotypes and identified 19 major and 229 minor STEC clusters. STEC cluster-specific gene markers were then identified through comparative genomic analysis. We further identified serotype-specific gene markers for the top 10 most frequent non-O157:H7 STEC serotypes. The cluster or serotype specific gene markers had 99.54% accuracy and more than 97.25% specificity when tested using 38,534 STEC and 14,216 non-STEC E. coli genomes, respectively. In addition, we developed a freely available in silico serotyping pipeline named STECFinder that combined these robust gene markers with established E. coli serotype specific O and H antigen genes and stx genes for accurate identification, cluster determination and serotyping of STEC. STECFinder can assign 99.85% and 99.83% of 38,534 STEC isolates to STEC clusters using assembled genomes and Illumina reads respectively and can simultaneously predict stx subtypes and STEC serotypes. Using shotgun metagenomic sequencing reads of STEC spiked food samples from a published study, we demonstrated that STECFinder can detect the spiked STEC serotypes, accurately. The cluster/serotype-specific gene markers could also be adapted for culture independent typing, facilitating rapid STEC typing. STECFinder is available as an installable package (https://github.com/LanLab/STECFinder) and will be useful for in silico STEC cluster identification and serotyping using genome data.

Published

2021

94. Multilevel Genome Typing Describes Short- and Long-Term Vibrio cholerae Molecular Epidemiology

Author

Ruiting Lan, Liam Cheney, Sandeep Kaur, and Michael Payne

Subjects

Physiology, Biology, medicine.disease_cause, Biochemistry, Microbiology, Genome, multilevel genome typing, Pandemic, Genetics, medicine, Typing, Vibrio cholerae, Molecular Biology, Ecology, Evolution, Behavior and Systematics, standardization, outbreak, Molecular epidemiology, transmission, typing, Outbreak, seventh pandemic, medicine.disease, Cholera, QR1-502, Computer Science Applications, classification, Modeling and Simulation, phylogenetic relationships, Multilocus sequence typing, epidemiology, Research Article

Abstract

Since 1817, cholera, caused by Vibrio cholerae, has been characterized by seven distinct pandemics. The ongoing seventh pandemic (7P) began in 1961. In this study, we developed a Multilevel Genome Typing (MGT) tool for classifying the V. cholerae species with a focus on the 7P. MGT is based on multilocus sequence typing (MLST), but the concept has been expanded to include a series of MLST schemes that compare population structure from broad to fine resolutions. The V. cholerae MGT consists of eight levels, with the lowest, MGT1, composed of 7 loci and the highest, MGT8, consisting of the 7P core genome (3,759 loci). We used MGT to analyze 5,771 V. cholerae genomes. The genetic relationships revealed by lower MGT levels recapitulated previous findings of large-scale 7P transmission across the globe. Furthermore, the higher MGT levels provided an increased discriminatory power to differentiate subgroups within a national outbreak. Additionally, we demonstrated the usefulness of MGT for non-7P classification. In a large non-7P MGT1 type, MGT2 and MGT3 described continental and regional distributions, respectively. Finally, MGT described trends of 7P in virulence, and MGT2 to MGT3 sequence types (STs) grouped isolates of the same ctxB, tcpA, and ctxB-tcpA genotypes and characterized their trends over the pandemic. MGT offers a range of resolutions for typing V. cholerae. The MGT nomenclature is stable, transferable, and directly comparable between investigations. The MGT database (https://mgtdb.unsw.edu.au/) can accept and process newly submitted samples. MGT allows tracking of existing and new isolates and will be useful for understanding future spread of cholera. IMPORTANCE In 2017, the World Health Organization launched the “Ending Cholera” initiative to reduce cholera-related deaths by 90% by 2030. This strategy emphasized the importance of the speed and accessibility of newer technologies to contain outbreaks. Here, we present a new tool named Multilevel Genome Typing (MGT), which classifies isolates of the cholera-causing agent, Vibrio cholerae. MGT is a freely available online database that groups genetically similar V. cholerae isolates to quickly indicate the origins of outbreaks. We validated the MGT database retrospectively in an outbreak setting, showcasing rapid confirmation of the Nepalese origins for the 2010 Haiti outbreak. In the past 5 years, thousands of V. cholerae genomes have been submitted to the NCBI database, which underscores the importance of and need for proper genome data classification for cholera epidemiology. The V. cholerae MGT database can assist in early decision making that directly impacts controlling both the local and global spread of cholera.

Published

2021

95. Antimicrobial Resistance and Molecular Characterization of Citrobacter spp. Causing Extraintestinal Infections

Author

Hui Sun, Jianguo Xu, Liyun Liu, Yonglu Wang, Ling Zhang, Haijian Zhou, Dalong Hu, Min Yuan, and Ruiting Lan

Subjects

Microbiology (medical), Imipenem, medicine.drug_class, Immunology, gyrA, Microbial Sensitivity Tests, Biology, Microbiology, Meropenem, beta-Lactamases, Cellular and Infection Microbiology, Citrobacter, Antibiotic resistance, multidrug resistance, Drug Resistance, Bacterial, medicine, Humans, Prospective Studies, Original Research, Citrobacter spp, Quinolone, biology.organism_classification, QR1-502, Anti-Bacterial Agents, Housekeeping gene, Multiple drug resistance, Infectious Diseases, sequence types, cytotoxicity, Multilocus sequence typing, Multilocus Sequence Typing, medicine.drug

Abstract

ObjectivesThis prospective study was carried out to investigate molecular characteristics and antimicrobial susceptibility patterns of Citrobacter spp. from extraintestinal infections.MethodsForty-six clinical Citrobacter spp. isolates were isolated from hospital patients with extraintestinal infections and analyzed by multilocus sequence typing (MLST) using seven housekeeping genes. Antimicrobial susceptibility testing was performed by disk diffusion method according to the Clinical and Laboratory Standards Institute (CLSI) recommendations. Adhesion and cytotoxicity to HEp-2 cells were assessed.ResultsThe 46 clinical Citrobacter spp. isolates were typed into 38 sequence types (STs), 9 of which belonged to four clonal complexes (CCs). None of the isolates shared the same ST or CCs with isolates from other countries or from other parts of China. Over half of the isolates were multidrug-resistant (MDR), with 17/26 C. freundii, 5/6 C. braakii, and 3/14 C. koseri isolates being MDR. Moreover, four isolates were carbapenem resistant with resistance to imipenem or meropenem. Among eight quinolone resistant C. freundii, all had a mutation in codon 59 (Thr59Ile) in quinolone resistance determining region of the gyrA gene. Only a small proportion of the isolates were found to be highly cytotoxic and adhesive with no correlation to sample sources.ConclusionsThere was a diverse range of Citrobacter isolates causing extraintestinal infections and a high prevalence of MDR.

Published

2021

96. Elucidation of global and national genomic epidemiology of

Author

Lijuan, Luo, Michael, Payne, Sandeep, Kaur, Dalong, Hu, Liam, Cheney, Sophie, Octavia, Qinning, Wang, Mark M, Tanaka, Vitali, Sintchenko, and Ruiting, Lan

Subjects

Molecular Epidemiology, Salmonella Infections, Animal, Virulence, population structure, Microbial Sensitivity Tests, Pathogens and Epidemiology, genomic epidemiology, Anti-Bacterial Agents, Disease Outbreaks, Foodborne Diseases, Molecular Typing, Salmonella enteritidis, Drug Resistance, Multiple, Bacterial, MGT, Salmonella entericaserovar Enteritidis, Multilevel Analysis, Animals, Humans, Salmonella Food Poisoning, global database, Genome, Bacterial, Research Articles

Abstract

Salmonella enterica serovar Enteritidis is a major cause of foodborne Salmonella infections and outbreaks in humans. Effective surveillance and timely outbreak detection are essential for public health control. Multilevel genome typing (MGT) with multiple levels of resolution has been previously demonstrated as a promising tool for this purpose. In this study, we developed MGT with nine levels for S. Enteritidis and characterised the genomic epidemiology of S. Enteritidis in detail. We examined 26 670 publicly available S. Enteritidis genome sequences from isolates spanning 101 years from 86 countries to reveal their spatial and temporal distributions. Using the lower resolution MGT levels, globally prevalent and regionally restricted sequence types (STs) were identified; avian associated MGT4-STs were found that were common in human cases in the USA; temporal trends were observed in the UK with MGT5-STs from 2014 to 2018 revealing both long lived endemic STs and the rapid expansion of new STs. Using MGT3 to MGT6, we identified multidrug resistance (MDR) associated STs at various MGT levels, which improves precision of detection and global tracking of MDR clones. We also found that the majority of the global S. Enteritidis population fell within two predominant lineages, which had significantly different propensity of causing large scale outbreaks. An online open MGT database has been established for unified international surveillance of S. Enteritidis. We demonstrated that MGT provides a flexible and high-resolution genome typing tool for S. Enteritidis surveillance and outbreak detection.

Published

2021

97. Elucidation of global and national genomic epidemiology of Salmonella enterica serovar Enteritidis through multilevel genome typing

Author

Sophie Octavia, Vitali Sintchenko, Michael Payne, Lijuan Luo, Mark M. Tanaka, Ruiting Lan, Dalong Hu, Sandeep Kaur, Qinning Wang, and Liam Cheney

Subjects

0301 basic medicine, Genetics, medicine.medical_specialty, Salmonella, education.field_of_study, 030106 microbiology, Population, Outbreak, Virulence, General Medicine, Biology, medicine.disease_cause, Genome, Multiple drug resistance, 03 medical and health sciences, 030104 developmental biology, Epidemiology, medicine, Typing, education

Abstract

Salmonella enterica serovar Enteritidis is a major cause of foodborne Salmonella infections and outbreaks in humans. Effective surveillance and timely outbreak detection are essential for public health control. Multilevel genome typing (MGT) with multiple levels of resolution has been previously demonstrated as a promising tool for this purpose. In this study, we developed MGT with nine levels for S. Enteritidis and characterised the genomic epidemiology of S. Enteritidis in detail. We examined 26 670 publicly available S. Enteritidis genome sequences from isolates spanning 101 years from 86 countries to reveal their spatial and temporal distributions. Using the lower resolution MGT levels, globally prevalent and regionally restricted sequence types (STs) were identified; avian associated MGT4-STs were found that were common in human cases in the USA; temporal trends were observed in the UK with MGT5-STs from 2014 to 2018 revealing both long lived endemic STs and the rapid expansion of new STs. Using MGT3 to MGT6, we identified multidrug resistance (MDR) associated STs at various MGT levels, which improves precision of detection and global tracking of MDR clones. We also found that the majority of the global S. Enteritidis population fell within two predominant lineages, which had significantly different propensity of causing large scale outbreaks. An online open MGT database has been established for unified international surveillance of S. Enteritidis. We demonstrated that MGT provides a flexible and high-resolution genome typing tool for S. Enteritidis surveillance and outbreak detection.

Published

2021

98. A novel multilocus variable-number tandem repeat analysis for Bordetella parapertussis

Author

Rei Fumimoto, Shu-Man Yao, Mineo Watanabe, Keigo Shibayama, Ruiting Lan, Nao Otsuka, Kensuke Ozawa, Laurence Don Wai Luu, Chuen-Sheue Chiang, and Kazunari Kamachi

Subjects

0301 basic medicine, Microbiology (medical), Genetics, 030106 microbiology, Outbreak, General Medicine, Multiple Loci VNTR Analysis, Biology, bacterial infections and mycoses, biology.organism_classification, Microbiology, Genome, Bordetella parapertussis, 03 medical and health sciences, Variable number tandem repeat, 030104 developmental biology, Tandem repeat, Multiplex polymerase chain reaction, Genotyping

Abstract

Purpose. Human-adapted Bordetella parapertussis is one of the causative agents of whooping cough; however, there are currently no genotyping systems with high discriminatory power for this bacterial pathogen. We therefore aimed to develop a multilocus variable-number tandem repeat analysis (MLVA) for human-adapted B. parapertussis.Methodology. Four highly polymorphic variable number tandem repeat (VNTR) loci in the B. parapertussis genome were selected and amplified by multiplex PCR. MLVA was performed based on the number of tandem repeats at VNTR loci. The discriminatory power of MLVA was evaluated with three laboratory reference strains and 50 human isolates of B. parapertussis.Results. Multiplex PCR-based MLVA characterized 53 B. parapertussis reference strains and isolates into 25 MLVA types and the Simpson diversity index was 0.91 (95 % confidence interval, 0.86-0.97). The three reference strains exhibited different MLVA types. Thirty-one Japanese isolates, ten French isolates and three Taiwanese isolates belonged to fourteen, nine and three MLVA types, respectively. In contrast, all five Australian isolates belonged to the same type. Two Japanese isolates collected from patients with known epidemiological links had the same type.Conclusion. Our novel MLVA method has high discriminatory power for genotyping human B. parapertussis. Regarding this organism, this genotyping system is a promising tool for epidemiological surveillance and investigating outbreaks.

Published

2019

99. National Safety Survey of Animal-use Commercial Probiotics and Their Spillover Effects From Farm to Humans: An Emerging Threat to Public Health

Author

Ping Ni, Songzhe Fu, Qian Yang, Fenglan He, Ying Liu, Jingwei Hao, Ruijun Li, and Ruiting Lan

Subjects

0301 basic medicine, Microbiology (medical), China, 030106 microbiology, Bacillus cereus, medicine.disease_cause, law.invention, 03 medical and health sciences, Probiotic, Antibiotic resistance, law, Surveys and Questionnaires, medicine, Animals, Humans, Good manufacturing practice, Retrospective Studies, biology, Transmission (medicine), business.industry, Probiotics, Pathogenic bacteria, Animal husbandry, Poultry farming, biology.organism_classification, Biotechnology, 030104 developmental biology, Infectious Diseases, Public Health, business

Abstract

Background Human-use probiotics have recently been associated with clinical infections and antibiotic resistance transfer, raising public concern over their safety. However, despite their extensive application in aquaculture and animal husbandry, the safety of animal-use probiotics remains poorly described. Methods We evaluated the safety of 92 animal-use probiotics from China. The pattern of spread of pathogens from probiotics and the consequent public health implications were also examined by conducting in-field genomic surveillance at 2 farms. Results A total of 123 probiotic Bacillus species isolates were obtained from 92 brands of probiotics, of which 45 isolates were resistant to antibiotics. Notably, 33.7% of probiotic products were contaminated with life-threatening pathogens such as Klebsiella pneumoniae. Genomic surveillance at a chicken farm identified an anthrax toxin–positive Bacillus cereus strain in a probiotic product used as a feed supplement, which was transferred into the groundwater and to a nearby fish farm. Following up retrospective analysis of the surveillance data during 2015–2018 in 3 provinces retrieved 2 B. cereus strains from human with intestinal anthrax symptoms and confirmed the transmission of B. cereus from farm to human. Surveillance of anthrax toxin revealed that cya was detected in 8 of 31 farms. Conclusions This study provides the first national safety survey of animal-use probiotics in China and confirms the spillover effects of probiotics from the farms to human. These results suggest that the large-scale application of pathogen-containing probiotics leads to the transfer of pathogens, with worrisome implications for public health. Good Manufacturing Practice should be implemented during the production of all probiotics. Animal-use probiotic products are frequently contaminated with viable pathogenic bacteria. This study revealed that virulent probiotic organisms and contaminating pathogens were colonized with farm animals and shed into the environment, which facilitated the transfer of pathogens to humans.

Published

2019

100. Genomic and molecular characterisation of Escherichia marmotae from wild rodents in Qinghai-Tibet plateau as a potential pathogen

Author

Dong Jin, Yanwen Xiong, Jing Yang, Jie Feng, Xiaochen Du, Shan Lu, Sha Liu, Xiangli Meng, Ji Pu, Hui Sun, Changyun Ye, Xia Luo, Yiting Wang, Jianguo Xu, Ruiting Lan, and Xuefang Xu

Subjects

Escherichia, 0301 basic medicine, China, Virulence Factors, Virulence, lcsh:Medicine, Human pathogen, Yersinia, Tibet, medicine.disease_cause, Article, Microbiology, Type three secretion system, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Shigella, lcsh:Science, Pathogen, Bacterial genomics, Phylogeny, Disease Reservoirs, Multidisciplinary, Shiga-Toxigenic Escherichia coli, Type II secretion system, biology, lcsh:R, Enterobacteriaceae Infections, Bacteriology, Sequence Analysis, DNA, Bacterial pathogenesis, biology.organism_classification, 030104 developmental biology, Yersinia pestis, Marmota, lcsh:Q, Genome, Bacterial, 030217 neurology & neurosurgery

Abstract

Wildlife is a reservoir of emerging infectious diseases of humans and domestic animals. Marmota himalayana mainly resides 2800–4000 m above sea level in the Qinghai-Tibetan Plateau, and is the primary animal reservoir of plague pathogen Yersinia pestis. Recently we isolated a new species, Escherichia marmotae from the faeces of M. himalayana. In this study we characterised E. marmotae by genomic analysis and in vitro virulence testing to determine its potential as a human pathogen. We sequenced the genomes of the seven E. marmotae strains and found that they contained a plasmid that carried a Shigella-like type III secretion system (T3SS) and their effectors, and shared the same O antigen gene cluster as Shigella dysenterae 8 and E. coli O38. We also showed that E. marmotae was invasive to HEp-2 cells although it was much less invasive than Shigella. Thus E. marmotae is likely to be an invasive pathogen. However, E. marmotae has a truncated IpaA invasin, and lacks the environmental response regulator VirF and the IcsA-actin based intracellular motility, rendering it far less invasive in comparison to Shigella. E. marmotae also carried a diverse set of virulence factors in addition to the T3SS, including an IS1414 encoded enterotoxin gene astA with 37 copies, E. coli virulence genes lifA/efa, cif, and epeA, and the sfp gene cluster, Yersinia T3SS effector yopJ, one Type II secretion system and two Type VI secretion systems. Therefore, E. marmotae is a potential invasive pathogen.

Published

2019