Your search keyword '"Yersinia classification"' showing total 360 results

1. Insights into the genomic traits of Yersinia frederiksenii, Yersinia intermedia and Yersinia kristensenii isolated from diverse sources in Brazil.

Author

Vilela FP, Imori PFM, Allard MW, and Falcão JP

Subjects

Brazil, Yersinia Infections microbiology, Yersinia Infections veterinary, Humans, Genomics, Prophages genetics, Plasmids genetics, Multilocus Sequence Typing, Virulence genetics, Yersinia genetics, Yersinia classification, Yersinia pathogenicity, Yersinia isolation & purification, Phylogeny, Genome, Bacterial, Virulence Factors genetics

Abstract

Yersinia is an important genus comprising foodborne, zoonotic and pathogenic bacteria. On the other hand, species of the so-called group Yersinia enterocolitica-like are understudied and mostly characterized as non-pathogenic, despite of some reports of human infections. The present study aimed to provide genomic insights of Yersinia frederiksenii (YF), Yersinia intermedia (YI) and Yersinia kristensenii (YK) isolated worldwide. A total of 22 YF, 20 YI and 14 YK genomes were searched for antimicrobial resistance genes, plasmids, prophages, and virulence factors. Their phylogenomic relatedness was analyzed by Gegenees and core-genome multi-locus sequence typing. Beta-lactam resistance gene bla TEM-116 and five plasmids replicons (pYE854, ColRNAI, ColE10, Col(pHAD28) and IncN3) were detected in less than five genomes. A total of 59 prophages, 106 virulence markers of the Yersinia genus, associated to adherence, antiphagocytosis, exoenzymes, invasion, iron uptake, proteases, secretion systems and the O-antigen, and virulence factors associated to other 20 bacterial genera were detected. Phylogenomic analysis revealed high inter-species distinction and four highly diverse YF clusters. In conclusion, the results obtained through the analyses of YF, YI and YK genomes suggest the virulence potential of these strains due to the broad diversity and high frequency of prophages and virulence factors found. Phylogenetic analyses were able to correctly distinguish these closely related species and show the presence of different genetic subgroups. These data contributed for a better understanding of YF, YI and YK virulence-associated features and global genetic diversity, and reinforced the need for better characterization of these Y. enterocolitica-like species considered non-pathogenic., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

2. Identification of microbial pathogens in Neolithic Scandinavian humans.

Author

Bergfeldt N, Kırdök E, Oskolkov N, Mirabello C, Unneberg P, Malmström H, Fraser M, Sanchez-Quinto F, Jorgensen R, Skar B, Lidén K, Jakobsson M, Storå J, and Götherström A

Subjects

Humans, Agriculture, Europe, History, Ancient, DNA, Mitochondrial genetics, Yersinia classification, Yersinia isolation & purification, Microbiota

Abstract

With the Neolithic transition, human lifestyle shifted from hunting and gathering to farming. This change altered subsistence patterns, cultural expression, and population structures as shown by the archaeological/zooarchaeological record, as well as by stable isotope and ancient DNA data. Here, we used metagenomic data to analyse if the transitions also impacted the microbiome composition in 25 Mesolithic and Neolithic hunter-gatherers and 13 Neolithic farmers from several Scandinavian Stone Age cultural contexts. Salmonella enterica, a bacterium that may have been the cause of death for the infected individuals, was found in two Neolithic samples from Battle Axe culture contexts. Several species of the bacterial genus Yersinia were found in Neolithic individuals from Funnel Beaker culture contexts as well as from later Neolithic context. Transmission of e.g. Y. enterocolitica may have been facilitated by the denser populations in agricultural contexts., (© 2024. The Author(s).)

Published

2024

3. Yersinia occitanica is a later heterotypic synonym of Yersinia kristensenii subsp. rochesterensis and elevation of Yersinia kristensenii subsp. rochesterensis to species status.

Author

Nguyen SV, Cunningham SA, Jeraldo P, Tran A, and Patel R

Subjects

Bacterial Typing Techniques, DNA, Bacterial genetics, Likelihood Functions, Nucleic Acid Hybridization, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Phylogeny, Yersinia classification

Abstract

The taxonomic position of Yersinia kristensenii subsp. rochesterensis and Yersinia occitanica was re-evaluated by genomic analysis. Average nucleotide identity (ANI), digital DNA-DNA hybridization values, and phylogenetic analyses of the type strains indicate that Y. kristensenii subsp. rochesterensis and Y. occitanica are the same genospecies. Additionally, the overall genomic relatedness index (OGRI) values reveal that Y. kristensenii subsp. rochesterensis should be elevated to species status as Yersinia rochesterensis sp. nov.

Published

2021

4. Yersinia artesiana sp. nov., Yersinia proxima sp. nov., Yersinia alsatica sp. nov., Yersina vastinensis sp. nov., Yersinia thracica sp. nov. and Yersinia occitanica sp. nov., isolated from humans and animals.

Author

Le Guern AS, Savin C, Angermeier H, Brémont S, Clermont D, Mühle E, Orozova P, Najdenski H, and Pizarro-Cerdá J

Subjects

Animals, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids chemistry, Feces microbiology, Humans, Multilocus Sequence Typing, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Yersinia isolation & purification, Phylogeny, Yersinia classification

Abstract

Thirty-three Yersinia strains previously characterized by the French Yersinia National Reference Laboratory (YNRL) and isolated from humans and animals were suspected to belong to six novel species by a recently described core genome multilocus sequence typing scheme. These strains and five additional strains from the YNRL were characterized using a polyphasic taxonomic approach including a phylogenetic analysis based on 500 core genes, determination of average nucleotide identity (ANI), determination of DNA G+C content and identification of phenotypic features. Phylogenetic analysis confirmed that the 38 studied strains formed six well-demarcated clades. ANI values between these clades and their closest relatives were <94.7 % and ANI values within each putative novel species were >97.5 %. Distinctive biochemical characteristics were identified in five out of the six novel species. All of these data demonstrated that the 38 strains belong to six novel species of the genus Yersinia : Yersinia artesiana sp. nov., type strain IP42281 T (=CIP 111845 T =DSM 110725 T ); Yersinia proxima sp. nov., type strain IP37424 T (=CIP 111847 T =DSM 110727 T ); Yersinia alsatica sp. nov., type strain IP38850 T (=CIP 111848 T =DSM 110726 T ); Yersinia vastinensis sp. nov., type strain IP38594 T (=CIP 111844 T =DSM 110738 T ); Yersinia thracica sp. nov., type strain IP34646 T (=CIP 111842 T =DSM 110736 T ); and Yersinia occitanica sp. nov., type strain IP35638 T (=CIP 111843 T =DSM 110739 T ).

Published

2020

5. Comparative genomic insights into Yersinia hibernica - a commonly misidentified Yersinia enterocolitica -like organism.

Author

Nguyen SV, Muthappa DM, Eshwar AK, Buckley JF, Murphy BP, Stephan R, Lehner A, and Fanning S

Subjects

Animals, Conjugation, Genetic, Diagnosis, Differential, Disease Models, Animal, Food Microbiology, Phylogeny, Swine, Virulence Factors genetics, Yersinia genetics, Yersinia isolation & purification, Yersinia pathogenicity, Yersinia enterocolitica genetics, Yersinia enterocolitica isolation & purification, Yersinia enterocolitica pathogenicity, Zebrafish, Embryo, Nonmammalian microbiology, Genomics methods, Yersinia classification, Yersinia Infections diagnosis, Yersinia enterocolitica classification

Abstract

Food-associated outbreaks linked to enteropathogenic Yersinia enterocolitica are of concern to public health. Pigs and their meat are recognized risk factors for transmission of Y. enterocolitica . This study aimed to describe the comparative genomics of Y. enterocolitica along with a number of misclassified Yersinia isolates, now constituting the recently described Yersinia hibernica . The latter was originally cultured from an environmental sample taken at a pig slaughterhouse. Unique features were identified in the genome of Y. hibernica, including a novel integrative conjugative element (ICE), denoted as ICE Yh-1 contained within a 255 kbp region of plasticity. In addition, a zebrafish embryo infection model was adapted and applied to assess the virulence potential among Yersinia isolates including Y. hibernica .

Published

2020

6. PREVALENCE OF YERSINIA AMONG WILD SIKA DEER ( CERVUS NIPPON ) AND BOARS ( SUS SCROFA ) IN JAPAN.

Author

Takahashi T, Kabeya H, Sato S, Yamazaki A, Kamata Y, Taira K, Asakura H, Sugiyama H, Takai S, and Maruyama S

Subjects

Animals, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial, Japan epidemiology, Prevalence, Swine, Swine Diseases microbiology, Yersinia classification, Yersinia drug effects, Yersinia Infections epidemiology, Yersinia Infections microbiology, Deer microbiology, Sus scrofa microbiology, Swine Diseases epidemiology, Yersinia isolation & purification, Yersinia Infections veterinary

Abstract

We examined the prevalence of Yersinia , including pathogenic species such as Yersinia enterocolitica and Yersinia pseudotuberculosis , among wild sika deer ( Cervus nippon ) and boars ( Sus scrofa ) captured in Japan. The prevalence of Yersinia in the wild deer was 75% (207/277) and in the boars was 74% (40/54). A total of 417 isolates of nine Yersinia species were isolated from the animals examined: the largest number of isolates (48%, 200/417) were Y. enterocolitica biotype 1A. Pathogenic Y. enterocolitica 1B/O:8 were also isolated from two deer, and Y. pseudotuberculosis serogroups 3 and 4 were isolated from two boars and a deer, respectively. The pathogenic Y. enterocolitica 1B/O:8 isolates carried four virulence genes ( ail , ystA , yadA , and virF ), and Y. pseudotuberculosis serogroups 3 and 4 isolates carried three virulence genes ( inv , yadA , and lcrF ). Although the Y. enterocolitica 1B/O:8 and Y. pseudotuberculosis isolates were sensitive to almost all the antimicrobials tested, the two Y. enterocolitica 1B/O:8 isolates were resistant to azithromycin and ampicillin, and the three Y. pseudotuberculosis isolates were resistant only to azithromycin. These findings suggested that wild deer and boars might be important reservoirs for the agent causing human yersiniosis.

Published

2020

7. Yersinia canariae sp. nov., isolated from a human yersiniosis case.

Author

Nguyen SV, Greig DR, Hurley D, Donoghue O, Cao Y, McCabe E, Mitchell M, Schaffer K, Jenkins C, and Fanning S

Subjects

Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Genome, Bacterial, Humans, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Spain, Travel, United Kingdom, Yersinia isolation & purification, Phylogeny, Yersinia classification, Yersinia Infections microbiology

Abstract

A Gram-negative rod from the Yersinia genus was isolated from a clinical case of yersiniosis in the United Kingdom. Long read sequencing data from an Oxford Nanopore Technologies (ONT) MinION in conjunction with Illumina HiSeq reads were used to generate a finished quality genome of this strain. Overall Genome Related Index (OGRI) of the strain was used to determine that it was a novel species within Yersinia , despite biochemical similarities to Yersinia enterocolitica . The 16S ribosomal RNA gene accessions are MN434982-MN434987 and the accession number for the complete and closed chromosome is CP043727. The type strain is SRR7544370 T (=NCTC 14382 T /=LMG 31573 T ).

Published

2020

8. Genus-wide Yersinia core-genome multilocus sequence typing for species identification and strain characterization.

Author

Savin C, Criscuolo A, Guglielmini J, Le Guern AS, Carniel E, Pizarro-Cerdá J, and Brisse S

Subjects

Datasets as Topic, Genome, Bacterial, Genotype, Phylogeny, Reference Standards, Multilocus Sequence Typing methods, Yersinia classification, Yersinia genetics, Yersinia isolation & purification

Abstract

The genus Yersinia comprises species that differ widely in their pathogenic potential and public-health significance. Yersinia pestis is responsible for plague, while Yersinia enterocolitica is a prominent enteropathogen. Strains within some species, including Y. enterocolitica, also vary in their pathogenic properties. Phenotypic identification of Yersinia species is time-consuming, labour-intensive and may lead to incorrect identifications. Here, we developed a method to automatically identify and subtype all Yersinia isolates from their genomic sequence. A phylogenetic analysis of Yersinia isolates based on a core subset of 500 shared genes clearly demarcated all existing Yersinia species and uncovered novel, yet undefined Yersinia taxa. An automated taxonomic assignment procedure was developed using species-specific thresholds based on core-genome multilocus sequence typing (cgMLST). The performance of this method was assessed on 1843 isolates prospectively collected by the French National Surveillance System and analysed in parallel using phenotypic reference methods, leading to nearly complete (1814; 98.4 %) agreement at species and infra-specific (biotype and serotype) levels. For 29 isolates, incorrect phenotypic assignments resulted from atypical biochemical characteristics or lack of phenotypic resolution. To provide an identification tool, a database of cgMLST profiles and reference taxonomic information has been made publicly accessible (https://bigsdb.pasteur.fr/yersinia). Genomic sequencing-based identification and subtyping of any Yersinia is a powerful and reliable novel approach to define the pathogenic potential of isolates of this medically important genus.

Published

2019

9. Yersinia kristensenii subsp. rochesterensis subsp. nov., isolated from human feces.

Author

Cunningham SA, Jeraldo P, and Patel R

Subjects

Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids chemistry, Genes, Bacterial, Glycolipids chemistry, Humans, Peptidoglycan chemistry, Phospholipids chemistry, RNA, Ribosomal, 16S genetics, Republic of Korea, Sequence Analysis, DNA, Yersinia isolation & purification, Feces microbiology, Phylogeny, Yersinia classification

Abstract

A single bacterial isolate, EPLC-04 T , was isolated from human feces and identified as representing a member of the genus Yersinia on the basis of phenotypic characteristics, matrix assisted laser desorption ionization time-of-flight mass spectrometry and partial 16S rRNA gene sequencing. The isolate's phenotypic profile differed from that described for the most closely related species, Yersinia kristensenii, by exhibiting lipase production and lacking pyrazinamidase activity. Multiple genetic targets, including the complete (1465 bp) 16S rRNA gene sequence and partial sequences of groEL (539 bp), gyrB (935 bp), glnA (525 bp) and recA (535 bp) indicated that the isolate exhibited 98.91, 92.16, 90.81, 92.78 and 89.01 % identity with Yersinia aldovae, 98.98, 91.99, 90.17, 89.77 and 89.55 % identity with Yersinia intermedia, and 99.66, 98.11, 98.50, 98.49 and 98.51 % identity with Y. kristensenii, respectively. Phylogenetic reconstructions based on the combination of the four housekeeping genes indicated that the isolate formed a unique branch, supported by a bootstrap value of 100 %. Digital DNA-DNA homology and 16S rRNA gene sequencing identified EPLC-04 T as representing Y. kristensenii. However, the unique phenotypic traits and results of phylogenetic analysis indicate that it represents a novel subspecies of Y. kristensenii. The name Yersinia kristenseniisubsp. rochesterensis subsp. nov. is proposed for this novel taxon (type strain EPLC-04 T =ATCC BAA-2637 T , DSMZ 28595 T ).

Published

2019

10. Yersinia hibernica sp. nov., isolated from pig-production environments.

Author

Nguyen SV, Muthappa DM, Hurley D, Donoghue O, McCabe E, Anes J, Schaffer K, Murphy BP, Buckley JF, and Fanning S

Subjects

Animals, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Ireland, Palatine Tonsil microbiology, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Yersinia isolation & purification, Phylogeny, Swine microbiology, Yersinia classification

Abstract

A Gram-stain-negative, rod-shaped strain isolated from pig-production environments was identified as a new species within the genus Yersinia using multifaceted genomic and biochemical approaches. The genome of this strain was closed using a hybrid assembly approach combining both high accuracy short read sequencing data with long read sequencing technology. Phylogenetic analysis of the 16S rRNA gene showed ~98 % similarity to Yersinia kristensenii and ~98 % similarity to Yersinia enterocolitica. Average nucleotide identity (OrthoANI) values were calculated as 85.79 % to Y. kristensenii ATCC 33638 T and 85.73 % to Y. enterocolitica ATCC 9610 T thereby providing evidence that this isolate should be considered as a novel species. The type strain is CFS1934 T (=NCTC 14222 T =LMG 31076 T ).

Published

2019

11. Isothermal DNA amplification combined with lateral flow dipsticks for detection of biothreat agents.

Author

Zasada AA, Zacharczuk K, Formińska K, Wiatrzyk A, Ziółkowski R, and Malinowska E

Subjects

Bacillus classification, Bacillus genetics, DNA, Bacterial isolation & purification, Francisella tularensis classification, Francisella tularensis genetics, Limit of Detection, Sensitivity and Specificity, Yersinia classification, Yersinia genetics, Bacillus isolation & purification, Bacterial Typing Techniques methods, Biological Warfare Agents, Francisella tularensis isolation & purification, Nucleic Acid Amplification Techniques, Yersinia isolation & purification

Abstract

The recently developed methods of nucleic acids isothermal amplification are promising tools for point-of-care diagnostics and in the field detection of pathogenic microorganisms. However, application of these methods outside a laboratory faces some challenges such as the rapid and sensitive detection of amplified products and the absence of cross-reactivity with genetically related microorganisms. In the presented study we compared three methods of isothermal DNA amplification loop-mediated isothermal amplification (LAMP), recombinase polymerase amplification (RPA) and thermophilic helicase-dependent isothermal DNA amplification (tHDA), for detection of highly dangerous pathogens, such as Bacillus anthracis, Francisella tularensis and Yersinia pestis, and combined them with lateral flow dipsticks for the rapid visualization of amplified products. We observed low specificity of the three methods for B. antharcis, medium for Y. pestis and high for F. tularensis detection. Sensitivity and the detection limit were high and comparable for all the methods. We concluded that the lateral flow dipsticks have been a very useful tool for product detection of the isothermal amplification methods and enable reading the results without the use of any equipment. However, our results showed that the use of isothermal amplification methods is strongly related to the risk of false positive results., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

12. Rapid detection of Yersinia enterocolitica serotype O:3 using a duplex PCR assay.

Author

Rusak LA, de Castro Lisboa Pereira R, Freitag IG, Hofer CB, Hofer E, Asensi MD, and Vallim DC

Subjects

Animals, DNA, Bacterial, Europe, Feces microbiology, Female, Genes, Bacterial genetics, Humans, Peptide Elongation Factor Tu genetics, Pregnancy, Sequence Alignment, Yersinia classification, Yersinia genetics, Yersinia isolation & purification, Yersinia enterocolitica genetics, Polymerase Chain Reaction methods, Serogroup, Serotyping methods, Yersinia Infections diagnosis, Yersinia enterocolitica classification, Yersinia enterocolitica isolation & purification

Abstract

Yersinia enterocolitica, a member of the Enterobacteriaceae family, is a zoonotic agent that causes gastrointestinal diseases and some extraintestinal disorders in humans. Y. enterocolitica ssp. palearctica bioserotype 4/O:3 is the primary pathogenic bioserotype in Europe, where it has a high public health relevance. The isolation and identification of Y. enterocolitica from various sources on selective media have been seldom successful due to several reasons. In an attempt to overcome the problems associated with traditional culture-based methods, we developed a single duplex PCR assay for the detection of Y. enterocolitica ssp. palearctica bioserotype 4/O:3 using DNA extracted from a source. We combined the primer for tufA (elongation factor Tu) with the primer for rfbC (the biosynthesis of the O side chain) in one single reaction, which showed good results when we analyzed 88 Yersinia strains and when it was tested in the DNA from stool samples of two groups of pregnant women, one comprising HIV-positive women and the other comprising of HIV-negative women. Furthermore, the duplex PCR assay was found to be 16 times better in detecting Yersinia spp. in stool samples than the culture-based method. In addition, it was found to be a rapid screening method for the detection of Y. enterocolitica serotype O:3, and it could still detect other Y. enterocolitica serotypes and Yersinia species as well. We anticipate that the duplex PCR assay could be a useful tool for hospital and veterinary surveillance studies on Yersinia worldwide., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

13. Prevalence of Yersinia Species in the Ileum of Crohn's Disease Patients and Controls.

Author

Le Baut G, O'Brien C, Pavli P, Roy M, Seksik P, Tréton X, Nancey S, Barnich N, Bezault M, Auzolle C, Cazals-Hatem D, Viala J, Allez M, Hugot JP, and Dumay A

Subjects

DNA Gyrase genetics, Humans, Polymerase Chain Reaction, Prevalence, Yersinia classification, Yersinia genetics, Crohn Disease complications, Crohn Disease microbiology, Ileum microbiology, Yersinia isolation & purification, Yersinia Infections epidemiology, Yersinia Infections microbiology

Abstract

Yersinia are common contaminants of food products, but their prevalence in the human gut is poorly documented. Yersinia have been implicated in Crohn's Disease (CD, an inflammatory bowel disease) however their role in CD is controversial. We performed highly sensitive PCR assays of specific sequences for the gyrB gene of Y. aldovae, Y. bercovieri, Y. enterocolitica, Y. intermedia, Y. mollaretii and the inv gene of Y. pseudotuberculosis . We analyzed a total of 470 ileal samples taken from 338 participants (262 CD patients and 76 controls) belonging to three independent cohorts. All patients and controls were phenotyped and genotyped for the main CD susceptibility variants: NOD2, ATG16L1 , and IRGM . Yersinia were found in 7.7% of ileal samples (respectively 7.9 and 7.6% in controls and CD patients) corresponding to 10% of participants (respectively 11.8 and 9.5% in controls and CD patients). Y. enterocolitica, Y. pseudotuberculosis and Y. intermedia were the most frequently identified species. The bacteria were more frequent in resected specimens, lymph nodes and Peyer's patches. Yersinia were no more likely to be detected in CD tissues than tissues from inflammatory and non-inflammatory controls. CD patients treated with immunosuppressants were less likely to be Yersinia carriers. In conclusion, this work shows that Yersinia species are frequently found at low levels in the human ileum in health and disease. The role of Yersinia species in this ecosystem should now be explored.

Published

2018

14. Identification of Yersinia enterocolitica isolates from humans, pigs and wild boars by MALDI TOF MS.

Author

Morka K, Bystroń J, Bania J, Korzeniowska-Kowal A, Korzekwa K, Guz-Regner K, and Bugla-Płoskońska G

Subjects

Animals, DNA, Ribosomal, Disease Reservoirs microbiology, Feces microbiology, Humans, Poland, Polymerase Chain Reaction methods, RNA, Ribosomal, 16S genetics, Sequence Analysis, Species Specificity, Yersinia classification, Yersinia genetics, Yersinia isolation & purification, Yersinia enterocolitica classification, Yersinia enterocolitica genetics, Bacterial Typing Techniques methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Sus scrofa microbiology, Swine microbiology, Yersinia enterocolitica isolation & purification

Abstract

Background: Yersinia enterocolitica is widespread within the humans, pigs and wild boars. The low isolation rate of Y. enterocolitica from food or environmental and clinical samples may be caused by limited sensitivity of culture methods. The main goal of present study was identification of presumptive Y. enterocolitica isolates using MALDI TOF MS. The identification of isolates may be difficult due to variability of bacterial strains in terms of biochemical characteristics. This work emphasizes the necessity of use of multiple methods for zoonotic Y. enterocolitica identification., Results: Identification of Y. enterocolitica isolates was based on MALDI TOF MS, and verified by VITEK ® 2 Compact and PCR. There were no discrepancies in identification of all human' and pig' isolates using MALDI TOF MS and VITEK ® 2 Compact. However three isolates from wild boars were not decisively confirmed as Y. enterocolitica. MALDI TOF MS has identified the wild boar' isolates designated as 3dz, 4dz, 8dz as Y. enterocolitica with a high score of matching with the reference spectra of MALDI Biotyper. In turn, VITEK ® 2 Compact identified 3dz and 8dz as Y. kristensenii, and isolate 4dz as Y. enterocolitica. The PCR for Y. enterocolitica 16S rDNA for these three isolates was negative, but the 16S rDNA sequence analysis identified these isolates as Y. kristensenii (3dz, 4dz) and Y. pekkanenii (8dz). The wild boar' isolates 3dz, 4dz and 8dz could not be classified using biotyping. The main bioserotype present within pigs and human faeces was 4/O:3. It has been shown that Y. enterocolitica 1B/O:8 can be isolated from human faeces using ITC/CIN culturing., Conclusion: The results of our study indicate wild boars as a reservoir of new and atypical strains of Yersinia, for which protein and biochemical profiles are not included in the MALDI Biotyper or VITEK ® 2 Compact databases. Pigs in the south-west Poland are the reservoir for pathogenic Y. enterocolitica strains. Four biochemical features included in VITEK ® 2 Compact known to be common with Wauters scheme were shown to produce incompatible results, thus VITEK ® 2 Compact cannot be applied in biotyping of Y. enterocolitica.

Published

2018

15. Survey of Parasitic Bacteria in Bat Bugs, Colorado.

Author

McKee CD, Osikowicz LM, Schwedhelm TR, Bai Y, Castle KT, and Kosoy MY

Subjects

Animals, Bacterial Proteins analysis, Bartonella classification, Brucella classification, Colorado, DNA, Bacterial analysis, Phylogeny, Yersinia classification, Bartonella isolation & purification, Bedbugs microbiology, Brucella isolation & purification, Chiroptera parasitology, Yersinia isolation & purification

Abstract

Bat bugs (Cimex adjunctus Barber) (Hemiptera: Cimicidae) collected from big brown bats (Eptesicus fuscus Palisot de Beauvoir) in Colorado, United States were assessed for the presence of Bartonella, Brucella, and Yersinia spp. using molecular techniques. No evidence of Brucella or Yersinia infection was found in the 55 specimens collected; however, 4/55 (7.3%) of the specimens were positive for Bartonella DNA. Multi-locus characterization of Bartonella DNA shows that sequences in bat bugs are phylogenetically related to other Bartonella isolates and sequences from European bats., (Published by Oxford University Press on behalf of Entomological Society of America 2017. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2018

16. The responses of an anaerobic microorganism, Yersinia intermedia MASE-LG-1 to individual and combined simulated Martian stresses.

Author

Beblo-Vranesevic K, Bohmeier M, Perras AK, Schwendner P, Rabbow E, Moissl-Eichinger C, Cockell CS, Pukall R, Vannier P, Marteinsson VT, Monaghan EP, Ehrenfreund P, Garcia-Descalzo L, Gómez F, Malki M, Amils R, Gaboyer F, Westall F, Cabezas P, Walter N, and Rettberg P

Subjects

Cold Temperature, Desiccation, Dose-Response Relationship, Radiation, Oxidation-Reduction, RNA, Ribosomal, 16S genetics, Salts, X-Rays, Yersinia classification, Yersinia genetics, Yersinia radiation effects, Mars, Stress, Physiological, Yersinia physiology

Abstract

The limits of life of aerobic microorganisms are well understood, but the responses of anaerobic microorganisms to individual and combined extreme stressors are less well known. Motivated by an interest in understanding the survivability of anaerobic microorganisms under Martian conditions, we investigated the responses of a new isolate, Yersinia intermedia MASE-LG-1 to individual and combined stresses associated with the Martian surface. This organism belongs to an adaptable and persistent genus of anaerobic microorganisms found in many environments worldwide. The effects of desiccation, low pressure, ionizing radiation, varying temperature, osmotic pressure, and oxidizing chemical compounds were investigated. The strain showed a high tolerance to desiccation, with a decline of survivability by four orders of magnitude during a storage time of 85 days. Exposure to X-rays resulted in dose-dependent inactivation for exposure up to 600 Gy while applied doses above 750 Gy led to complete inactivation. The effects of the combination of desiccation and irradiation were additive and the survivability was influenced by the order in which they were imposed. Ionizing irradiation and subsequent desiccation was more deleterious than vice versa. By contrast, the presence of perchlorates was not found to significantly affect the survival of the Yersinia strain after ionizing radiation. These data show that the organism has the capacity to survive and grow in physical and chemical stresses, imposed individually or in combination that are associated with Martian environment. Eventually it lost its viability showing that many of the most adaptable anaerobic organisms on Earth would be killed on Mars today.

Published

2017

17. Yersinia spp. in Wild Rodents and Shrews in Finland.

Author

Joutsen S, Laukkanen-Ninios R, Henttonen H, Niemimaa J, Voutilainen L, Kallio ER, Helle H, Korkeala H, and Fredriksson-Ahomaa M

Subjects

Animals, Finland epidemiology, Rodent Diseases epidemiology, Species Specificity, Yersinia classification, Yersinia Infections epidemiology, Yersinia Infections microbiology, Animals, Wild, Rodent Diseases microbiology, Rodentia, Shrews microbiology, Yersinia isolation & purification, Yersinia Infections veterinary

Abstract

Yersinia enterocolitica and Yersinia pseudotuberculosis are important zoonotic bacteria causing human enteric yersiniosis commonly reported in Europe. All Y. pseudotuberculosis strains are considered pathogenic, while Y. enterocolitica include both pathogenic and nonpathogenic strains which can be divided into six biotypes (1A, 1B, and 2-5) and about 30 serotypes. The most common types causing yersiniosis in Europe are Y. enterocolitica bioserotypes 4/O:3 and 2/O:9. Strains belonging to biotype 1A are considered as nonpathogenic because they are missing important virulence genes like the attachment-invasion-locus (ail) gene in the chromosome and the virulence plasmid. The role of wild small mammals as a reservoir of enteropathogenic Yersinia spp. is still obscure. In this study, the presence of Yersinia spp. was examined from 1840 wild small mammals, including voles, mice, and shrews, trapped in Finland during a 7-year period. We isolated seven Yersinia species. Y. enterocolitica was the most common species, isolated from 8% of the animals; while most of these isolates represented nonpathogenic biotype 1A, human pathogenic bioserotype 2/O:9 was also isolated from a field vole. Y. pseudotuberculosis of bioserotype 1/O:2 was isolated from two shrews. The ail gene, which is typically only found in the isolates of biotypes 1B and 2-5 associated with yersiniosis, was frequently (23%) detected in the nonpathogenic isolates of biotype 1A and sporadically (6%) in Yersinia kristensenii isolates. Our results suggest that wild small mammals, especially voles, may serve as carriers for ail-positive Y. enterocolitica 1A and Y. kristensenii. We also demonstrate that voles and shrews sporadically excrete pYV-positive Y. enterocolitica 2/O:9 and Y. pseudotuberculosis 1/O:2, respectively, in their feces and, thus, can serve as a contamination source for vegetables by contaminating the soil.

Published

2017

18. Evolutionary study of Yersinia genomes deciphers emergence of human pathogenic species.

Author

Tan SY, Tan IK, Tan MF, Dutta A, and Choo SW

Subjects

Adhesins, Bacterial chemistry, Adhesins, Bacterial genetics, Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins genetics, CRISPR-Cas Systems genetics, Humans, Phylogeny, Plasmids genetics, Plasmids metabolism, Virulence genetics, Yersinia classification, Yersinia pathogenicity, Yersinia Infections microbiology, Yersinia Infections pathology, Evolution, Molecular, Genome, Bacterial, Yersinia genetics

Abstract

On record, there are 17 species in the Yersinia genus, of which three are known to be pathogenic to human. While the chromosomal and pYV (or pCD1) plasmid-borne virulence genes as well as pathogenesis of these three species are well studied, their genomic evolution is poorly understood. Our study aims to predict the key evolutionary events that led to the emergence of pathogenic Yersinia species by analyzing gene gain-and-loss, virulence genes, and "Clustered regularly-interspaced short palindromic repeats". Our results suggest that the most recent ancestor shared by the human pathogenic Yersinia was most probably an environmental species that had adapted to the human body. This might have led to ecological specialization that diverged Yersinia into ecotypes and distinct lineages based on differential gene gain-and-loss in different niches. Our data also suggest that Y. pseudotuberculosis group might be the donor of the ail virulence gene to Y. enterocolitica. Hence, we postulate that evolution of human pathogenic Yersinia might not be totally in parallel, but instead, there were lateral gene transfer events. Furthermore, the presence of virulence genes seems to be important for the positive selection of virulence plasmid. Our studies provide better insights into the evolutionary biology of these bacteria.

Published

2016

19. 'Add, stir and reduce': Yersinia spp. as model bacteria for pathogen evolution.

Author

McNally A, Thomson NR, Reuter S, and Wren BW

Subjects

Animals, Enterobacteriaceae genetics, Humans, Models, Molecular, Multigene Family, Phylogeny, Yersinia classification, Yersinia enterocolitica genetics, Yersinia pestis genetics, Yersinia pseudotuberculosis genetics, Evolution, Molecular, Genome, Bacterial, Insect Vectors microbiology, Regulon, Yersinia genetics, Yersinia Infections microbiology

Abstract

Pathogenic species in the Yersinia genus have historically been targets for research aimed at understanding how bacteria evolve into mammalian pathogens. The advent of large-scale population genomic studies has greatly accelerated the progress in this field, and Yersinia pestis, Yersinia pseudotuberculosis and Yersinia enterocolitica have once again acted as model organisms to help shape our understanding of the evolutionary processes involved in pathogenesis. In this Review, we highlight the gene gain, gene loss and genome rearrangement events that have been identified by genomic studies in pathogenic Yersinia species, and we discuss how these findings are changing our understanding of pathogen evolution. Finally, as these traits are also found in the genomes of other species in the Enterobacteriaceae, we suggest that they provide a blueprint for the evolution of enteropathogenic bacteria.

Published

2016

20. Evaluation of Chromogenic Medium for Selective Isolation of Yersinia.

Author

Thuan NK, Naher K, Kubo R, Taniguchi T, and Hayashidani H

Subjects

Agar, Carbanilides, Cefsulodin, Drug Resistance, Bacterial, Humans, Novobiocin, Temperature, Time Factors, Yersinia classification, Yersinia growth & development, Culture Media chemistry, Culture Media pharmacology, Yersinia drug effects, Yersinia isolation & purification

Abstract

Cefsulodin-irgasan-novobiocin agar (CIN) has been used as a selective agar to detect Yersinia in food or human patients; however, its components can inhibit the growth of some strains of Yersinia enterocolitica serovar O3 and Y. pseudotuberculosis. Recently, a new Yersinia selective agar, CHROMagar Yersinia enterocolitica (CAYe), was developed and evaluated as a novel selective agar for pathogenic Y. enterocolitica. In this research, a total of 251Yersinia strains (176 pathogenic Y. enterocolitica, 59 Y. pseudotuberculosis, and 16 non-pathogenic Yersinia) were cultured on both CIN and CAYe for comparison. Except for 10 of 104 pathogenic Y. enterocolitica O3 strains and 59 Y. pseudotuberculosis strains, 198 Yersinia isolates grew on both media after 48 hr of incubation at 32℃. Of the 10 pathogenic Y. enterocolitica O3 which could not grow on CIN or CAYe, 9 strains could not grow on CIN with supplements and 1 strain could not grow CAYe with supplements. Of 9 strains which did not grow on CIN with supplements, 3 strains could not grow on CIN without supplements. However, 1 strain which did not grow on CAYe with supplements could grow on CAYe without supplements. All of the Y. pseudotuberculosis strains could grow on CIN with/without supplements and on CAYe without supplements. The results indicate that the inhibition of the growth of Y. enterocolitica O3 on CIN is related to the components of CIN; however, the inhibition on CAYe appears to be related to the supplements in CAYe. Therefore, CAYe may be a more useful selective medium than CIN for pathogenic Y. enterocolitica .

Published

2016

21. Salmonella, Shigella, and yersinia.

Author

Dekker JP and Frank KM

Subjects

Classification methods, Dysentery, Bacillary diagnosis, Dysentery, Bacillary epidemiology, Dysentery, Bacillary prevention & control, Humans, Microbial Sensitivity Tests methods, Salmonella classification, Salmonella isolation & purification, Salmonella Infections diagnosis, Salmonella Infections epidemiology, Salmonella Infections prevention & control, Shigella classification, Shigella isolation & purification, Specimen Handling methods, Yersinia classification, Yersinia isolation & purification, Yersinia Infections diagnosis, Yersinia Infections epidemiology, Yersinia Infections prevention & control, Bacteriological Techniques

Abstract

Salmonella, Shigella, and Yersinia cause a well-characterized spectrum of disease in humans, ranging from asymptomatic carriage to hemorrhagic colitis and fatal typhoidal fever. These pathogens are responsible for millions of cases of food-borne illness in the United States each year, with substantial costs measured in hospitalizations and lost productivity. In the developing world, illness caused by these pathogens is not only more prevalent but also associated with a greater case-fatality rate. Classic methods for identification rely on selective media and serology, but newer methods based on mass spectrometry and polymerase chain reaction show great promise for routine clinical testing., (Published by Elsevier Inc.)

Published

2015

22. Strains of Yersinia wautersii should continue to be classified as the 'Korean Group' of the Yersinia pseudotuberculosis complex and not as a separate species.

Author

Neubauer H and Sprague LD

Subjects

Humans, Yersinia classification

Published

2015

23. YersiniaBase: a genomic resource and analysis platform for comparative analysis of Yersinia.

Author

Tan SY, Dutta A, Jakubovics NS, Ang MY, Siow CC, Mutha NV, Heydari H, Wee WY, Wong GJ, and Choo SW

Subjects

Chromosome Mapping, Humans, Internet, Phylogeny, Search Engine, User-Computer Interface, Yersinia classification, Yersinia pathogenicity, Yersinia Infections microbiology, Databases, Genetic, Genome, Bacterial, Genomics methods, Software, Virulence genetics, Yersinia genetics

Abstract

Background: Yersinia is a Gram-negative bacteria that includes serious pathogens such as the Yersinia pestis, which causes plague, Yersinia pseudotuberculosis, Yersinia enterocolitica. The remaining species are generally considered non-pathogenic to humans, although there is evidence that at least some of these species can cause occasional infections using distinct mechanisms from the more pathogenic species. With the advances in sequencing technologies, many genomes of Yersinia have been sequenced. However, there is currently no specialized platform to hold the rapidly-growing Yersinia genomic data and to provide analysis tools particularly for comparative analyses, which are required to provide improved insights into their biology, evolution and pathogenicity., Description: To facilitate the ongoing and future research of Yersinia, especially those generally considered non-pathogenic species, a well-defined repository and analysis platform is needed to hold the Yersinia genomic data and analysis tools for the Yersinia research community. Hence, we have developed the YersiniaBase, a robust and user-friendly Yersinia resource and analysis platform for the analysis of Yersinia genomic data. YersiniaBase has a total of twelve species and 232 genome sequences, of which the majority are Yersinia pestis. In order to smooth the process of searching genomic data in a large database, we implemented an Asynchronous JavaScript and XML (AJAX)-based real-time searching system in YersiniaBase. Besides incorporating existing tools, which include JavaScript-based genome browser (JBrowse) and Basic Local Alignment Search Tool (BLAST), YersiniaBase also has in-house developed tools: (1) Pairwise Genome Comparison tool (PGC) for comparing two user-selected genomes; (2) Pathogenomics Profiling Tool (PathoProT) for comparative pathogenomics analysis of Yersinia genomes; (3) YersiniaTree for constructing phylogenetic tree of Yersinia. We ran analyses based on the tools and genomic data in YersiniaBase and the preliminary results showed differences in virulence genes found in Yersinia pestis and Yersinia pseudotuberculosis compared to other Yersinia species, and differences between Yersinia enterocolitica subsp. enterocolitica and Yersinia enterocolitica subsp. palearctica., Conclusions: YersiniaBase offers free access to wide range of genomic data and analysis tools for the analysis of Yersinia. YersiniaBase can be accessed at http://yersinia.um.edu.my .

Published

2015

24. Use of whole-genus genome sequence data to develop a multilocus sequence typing tool that accurately identifies Yersinia isolates to the species and subspecies levels.

Author

Hall M, Chattaway MA, Reuter S, Savin C, Strauch E, Carniel E, Connor T, Van Damme I, Rajakaruna L, Rajendram D, Jenkins C, Thomson NR, and McNally A

Subjects

Animals, Computational Biology methods, Genes, Bacterial, Genetic Loci, Genetic Variation, Humans, Phylogeny, Reproducibility of Results, Yersinia isolation & purification, Genome, Bacterial, Multilocus Sequence Typing methods, Yersinia classification, Yersinia genetics, Yersinia Infections microbiology

Abstract

The genus Yersinia is a large and diverse bacterial genus consisting of human-pathogenic species, a fish-pathogenic species, and a large number of environmental species. Recently, the phylogenetic and population structure of the entire genus was elucidated through the genome sequence data of 241 strains encompassing every known species in the genus. Here we report the mining of this enormous data set to create a multilocus sequence typing-based scheme that can identify Yersinia strains to the species level to a level of resolution equal to that for whole-genome sequencing. Our assay is designed to be able to accurately subtype the important human-pathogenic species Yersinia enterocolitica to whole-genome resolution levels. We also report the validation of the scheme on 386 strains from reference laboratory collections across Europe. We propose that the scheme is an important molecular typing system to allow accurate and reproducible identification of Yersinia isolates to the species level, a process often inconsistent in nonspecialist laboratories. Additionally, our assay is the most phylogenetically informative typing scheme available for Y. enterocolitica., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

25. [Maldi-tof ms analysis for yersinia pestis, vibrio cholera, and francisella tularensis identification].

Author

Afanas'ev MV, Mironova LV, and Balakhonov SV

Subjects

Bacterial Typing Techniques, Bacteriological Techniques methods, Cholera microbiology, Containment of Biohazards methods, Francisella tularensis pathogenicity, Humans, Specimen Handling methods, Vibrio classification, Vibrio isolation & purification, Vibrio pathogenicity, Vibrio cholerae pathogenicity, Yersinia classification, Yersinia isolation & purification, Yersinia pathogenicity, Yersinia pestis pathogenicity, Francisella tularensis isolation & purification, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Vibrio cholerae isolation & purification, Yersinia pestis isolation & purification

Abstract

Numerous studies showed that a new technology for the clinical microbiology laboratories, Matrix-Assisted Laser Desorption Ionization--Time of Flight Mass Spectrometry (MALDI-ToF MS), allows fast, accurate, and effective identification of most clinically relevant microorganisms to be implemented. In the present review, we discuss applications of this approach for identification and typing of extremely dangerous pathogens--Yersinia pestis, Vibrio cholera, and Francisella tularensis, including the advantages and disadvantages of the method, sample preparation and biosafety problems.

Published

2015

26. Fast and sensitive detection of enteropathogenic Yersinia by immunoassays.

Author

Laporte J, Savin C, Lamourette P, Devilliers K, Volland H, Carniel E, Créminon C, and Simon S

Subjects

Animals, Antibodies, Bacterial immunology, Antibodies, Monoclonal immunology, Antibody Specificity immunology, Antigens, Bacterial immunology, Humans, Immunoassay standards, Immunoenzyme Techniques, Mice, Reproducibility of Results, Sensitivity and Specificity, Immunoassay methods, Yersinia classification, Yersinia Infections diagnosis, Yersinia Infections microbiology

Abstract

Yersinia enterocolitica and Yersinia pseudotuberculosis, the two Yersinia species that are enteropathogenic for humans, are distributed worldwide and frequently cause diarrhea in inhabitants of temperate and cold countries. Y. enterocolitica is a major cause of foodborne disease resulting from consumption of contaminated pork meat and is further associated with substantial economic cost. However, investigation of enteropathogenic Yersinia species is infrequently performed routinely in clinical laboratories because of their specific growth characteristics, which make difficult their isolation from stool samples. Moreover, current isolation procedures are time-consuming and expensive, thus leading to underestimates of the incidence of enteric yersiniosis, inappropriate prescriptions of antibiotic treatments, and unnecessary appendectomies. The main objective of the study was to develop fast, sensitive, specific, and easy-to-use immunoassays, useful for both human and veterinary diagnosis. Monoclonal antibodies (MAbs) directed against Y. enterocolitica bioserotypes 2/O:9 and 4/O:3 and Y. pseudotuberculosis serotypes I and III were produced. Pairs of MAbs were selected by testing their specificity and affinity for enteropathogenic Yersinia and other commonly found enterobacteria. Pairs of MAbs were selected to develop highly sensitive enzyme immunoassays (EIAs) and lateral flow immunoassays (LFIs or dipsticks) convenient for the purpose of rapid diagnosis. The limit of detection of the EIAs ranged from 3.2 × 10(3) CFU/ml to 8.8 × 10(4) CFU/ml for pathogenic serotypes I and III of Y. pseudotuberculosis and pathogenic bioserotypes 2/O:9 and 4/O:3 of Y. enterocolitica and for the LFIs ranged from 10(5) CFU/ml to 10(6) CFU/ml. A similar limit of detection was observed for artificially contaminated human feces., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

27. Multiplex primer-extension assay for identification of Yersinia species.

Author

Dalmasso A, Civera T, Filipello V, and Bottero MT

Subjects

Evolution, Molecular, Genes, Bacterial, Genetic Variation, Molecular Typing methods, Yersinia classification, Yersinia genetics

Abstract

A multiplex primer-extension reaction (PER) assay, was specifically designed for the identification of ten Yersinia species. The assay, directed towards the tufA (elongation factor Tu) gene, was tested on a total of 42 samples representing Yersinia species and non-Yersinia species. The primers used in the preliminary PCR, designed in highly conserved regions upstream and downstream of the diagnosis sites, successfully amplified a 587 bp fragment. The diagnosis sites were simultaneously interrogated using a multiplex PER and the results were confirmed by fragment sequencing. The proposed test provides an appropriate tool to monitor the presence of Yersinia spp. in food samples and to evaluate the potential hazard for consumers.

Published

2014

28. Evaluation of a modified Cefsulodin-Irgasan-Novobiocin agar for isolation of Yersinia spp.

Author

Tan LK, Ooi PT, Carniel E, and Thong KL

Subjects

Agar chemistry, Bacterial Typing Techniques, Carbanilides pharmacology, Cefsulodin pharmacology, Culture Media pharmacology, Novobiocin metabolism, Yersinia classification, Yersinia growth & development, Agar pharmacology, Culture Media chemistry, Yersinia isolation & purification

Abstract

Y. enterocolitica and Y. pseudotuberculosis are important food borne pathogens. However, the presence of competitive microbiota makes the isolation of Y. enterocolitica and Y. pseudotuberculosis from naturally contaminated foods difficult. We attempted to evaluate the performance of a modified Cefsulodin-Irgasan-Novobiocin (CIN) agar in the differentiation of Y. enterocolitica from non-Yersinia species, particularly the natural intestinal microbiota. The modified CIN enabled the growth of Y. enterocolitica colonies with the same efficiency as CIN and Luria-Bertani agar. The detection limits of the modified CIN for Y. enterocolitica in culture medium (10 cfu/ml) and in artificially contaminated pork (10(4) cfu/ml) were also comparable to those of CIN. However, the modified CIN provided a better discrimination of Yersinia colonies from other bacteria exhibiting Yersinia-like colonies on CIN (H2S-producing Citrobacter freundii, C. braakii, Enterobacter cloacae, Aeromonas hydrophila, Providencia rettgeri, and Morganella morganii). The modified CIN exhibited a higher recovery rate of Y. enterocolitica from artificially prepared bacterial cultures and naturally contaminated samples compared with CIN. Our results thus demonstrated that the use of modified CIN may be a valuable means to increase the recovery rate of food borne Yersinia from natural samples, which are usually contaminated by multiple types of bacteria.

Published

2014

29. Relation between serology of meat juice and bacteriology of tonsils and feces for the detection of enteropathogenic Yersinia spp. in pigs at slaughter.

Author

Van Damme I, Vanantwerpen G, Berkvens D, and De Zutter L

Subjects

Animals, Bacterial Typing Techniques, Enzyme-Linked Immunosorbent Assay, Food Contamination analysis, Food Microbiology, Swine microbiology, Yersinia classification, Yersinia pseudotuberculosis classification, Yersinia pseudotuberculosis isolation & purification, Abattoirs, Feces microbiology, Meat microbiology, Palatine Tonsil microbiology, Yersinia isolation & purification

Abstract

The association between positive serology and culture detection of Yersinia spp. in individual pigs was determined. Pieces of diaphragm from 370 pig carcasses were collected for serological analysis, and tonsils and feces of the same carcass were collected for bacteriological analysis. Detection of anti-Yersinia antibodies in meat juice samples was done using an indirect enzyme-linked immunosorbent assay (ELISA) based on Yops (Yersinia outer proteins). Tonsils and feces were tested for the presence of enteropathogenic Yersinia spp. by direct plating on cefsulodin-irgasan-novobiocin agar plates. Of the 370 meat juice samples, 241 (65.1%) gave a positive serological reaction using a cutoff value of 20%. Enteropathogenic Yersinia spp. (Yersinia enterocolitica serotype O:3 and Yersinia pseudotuberculosis) were found in tonsils of 161 pigs and feces of 30 pigs. Recovery of enteropathogenic Yersinia from the tonsils was highly correlated with positive serotiters, whereas no correlation was found between serology and fecal excretion. Results demonstrated that serology has an acceptable sensitivity, but a relatively low specificity for the rapid detection of enteropathogenic Yersinia spp. in tonsils of pigs at slaughter.

Published

2014

30. The Yersinia pseudotuberculosis complex: characterization and delineation of a new species, Yersinia wautersii.

Author

Savin C, Martin L, Bouchier C, Filali S, Chenau J, Zhou Z, Becher F, Fukushima H, Thomson NR, Scholz HC, and Carniel E

Subjects

Bacterial Proteins analysis, Bacterial Typing Techniques, Cluster Analysis, Genotype, Humans, Korea, Mass Spectrometry, Metabolic Networks and Pathways, Multilocus Sequence Typing, RNA, Ribosomal, 16S genetics, Yersinia chemistry, Yersinia genetics, Yersinia physiology, Yersinia classification

Abstract

The genus Yersinia contains three species pathogenic for humans, one of which is the enteropathogen Yersinia pseudotuberculosis. A recent analysis by Multi Locus Sequence Typing (MLST) of the 'Y. pseudotuberculosis complex' revealed that this complex comprises three distinct populations: the Y. pestis/Y. pseudotuberculosis group, the recently described species Yersinia similis, and a third not yet characterized population designated 'Korean Group', because most strains were isolated in Korea. The aim of this study was to perform an in depth phenotypic and genetic characterization of the three populations composing the Y. pseudotuberculosis complex (excluding Y. pestis, which belonged to the Y. pseudotuberculosis cluster in the MLST analysis). Using a set of strains representative of each group, we found that the three populations had close metabolic properties, but were nonetheless distinguishable based on D-raffinose and D-melibiose fermentation, and on pyrazinamidase activity. Moreover, high-resolution electrospray mass spectrometry highlighted protein peaks characteristic of each population. Their 16S rRNA gene sequences shared high identity (≥99.5%), but specific nucleotide signatures for each group were identified. Multi-Locus Sequence Analysis also identified three genetically closely related but distinct populations. Finally, an Average Nucleotide Identity (ANI) analysis performed after sequencing the genomes of a subset of strains of each group also showed that intragroup identity (average for each group ≥99%) was higher than intergroup diversity (94.6-97.4%). Therefore, all phenotypic and genotypic traits studied concurred with the initial MLST data indicating that the Y. pseudotuberculosis complex comprises a third and clearly distinct population of strains forming a novel Yersinia species that we propose to designate Yersinia wautersii sp. nov. The isolation of some strains from humans, the detection of virulence genes (on the pYV and pVM82 plasmids, or encoding the superantigen ypmA) in some isolates, and the absence of pyrazinamidase activity (a hallmark of pathogenicity in the genus Yersinia) argue for the pathogenic potential of Y. wautersii., (Copyright © 2014 Elsevier GmbH. All rights reserved.)

Published

2014

31. Biochemical and molecular heterogeneity among isolates of Yersinia ruckeri from rainbow trout (Oncorhynchus mykiss, Walbaum) in North West Germany.

Author

Huang Y, Runge M, Michael GB, Schwarz S, Jung A, and Steinhagen D

Subjects

Animals, Bacterial Typing Techniques, Electrophoresis, Gel, Pulsed-Field veterinary, Germany, Polymerase Chain Reaction veterinary, RNA, Ribosomal, 16S genetics, Repetitive Sequences, Nucleic Acid genetics, Yersinia classification, Yersinia Infections microbiology, Fish Diseases microbiology, Oncorhynchus mykiss microbiology, Yersinia genetics, Yersinia Infections veterinary

Abstract

Background: Enteric Redmouth Disease (ERM), caused by Yersinia ruckeri, is one of the most important infectious diseases in rainbow trout (Oncorhynchus mykiss) aquaculture in Europe. More recently, non-motile vaccine resistant isolates appear to have evolved and are causing disease problems throughout Europe, including Germany. The aim of this study was to analyse the variation of biochemical and molecular characteristics of Y. ruckeri isolates collected in north west Germany as a basis for strain differentiation. The isolates originated mainly from rainbow trout and were characterised by biochemical profiling, 16S rDNA sequencing, repetitive sequence-based PCRs, including (GTG)5-PCR, BOX-PCR, ERIC-PCR and REP-PCR, and pulsed-field gel electrophoresis (PFGE)., Results: In total, 83 isolates were characterised, including 48 isolates collected during a field study in north west Germany. All isolates were confirmed as Y. ruckeri by the API 20E system. Five isolates were additionally confirmed as Y. ruckeri by Y. ruckeri-specific PCR and 16S rDNA sequencing. Only 17 isolates hydrolyzed Tween 80/20. Sixty-six isolates (79.5%) were non-motile. Two different patterns were obtained by REP-PCR, five patterns by ERIC-PCR, four patterns by (GTG)5-PCR and three patterns by BOX-PCR. NotI-directed PFGE resulted in 17 patterns that differed from each other by 25-29 fragments. Isolates from the field study clustered together as PFGE type C. According to the results of API 20E, repetitive sequence-based PCRs and PFGE, these isolates could be subdivided into 27 different groups., Conclusions: The detailed molecular and phenotypic characterisation scheme developed in this study could be used to help trace the dissemination of Y. ruckeri isolates, and thus may represent part of improved disease monitoring plans in the future.

Published

2013

32. Multilocus sequence analysis and 16S rRNA gene sequencing reveal that Yersinia frederiksenii genospecies 2 is Yersinia massiliensis.

Author

Souza RA, Imori PFM, and Falcão JP

Subjects

Bacterial Typing Techniques, DNA, Bacterial genetics, Genes, Bacterial, Molecular Sequence Data, Multilocus Sequence Typing, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Yersinia genetics, Phylogeny, Yersinia classification

Abstract

Since Yersinia frederiksenii was first described in 1980, it has been recognized genotypically as a heterogeneous species, comprising three phenotypically indistinguishable genospecies. In this study, the sequence of the 16S rRNA gene and the concatenated sequences of six housekeeping genes (glnA, gyrB, hsp60, recA, rpoB and sodA) of all the currently known species of the genus Yersinia were used to determine the phylogenetic position of Y. frederiksenii genospecies 2 in the genus Yersinia. The phylogenetic analyses grouped the Y. frederiksenii genospecies 2 strains in a monophyletic group together with representative strains of Yersinia massiliensis. Moreover, the Y. frederiksenii genospecies 2 strains were also grouped apart from the other species of the genus Yersinia and far from the other two genospecies of Y. frederiksenii. All of the observations made in this study support the conclusion that Y. frederiksenii genospecies 2 should be reclassified as Y. massiliensis.

Published

2013

33. Antibacterial metabolites synthesized by psychrotrophic bacteria isolated from cold-freshwater environments.

Author

Barros J, Becerra J, González C, and Martínez M

Subjects

Anti-Bacterial Agents pharmacology, Chile, Cluster Analysis, Cold Temperature, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Gas Chromatography-Mass Spectrometry, Listeria monocytogenes drug effects, Microbial Sensitivity Tests, Phylogeny, Pseudomonas classification, Pseudomonas genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Temperature, Yersinia classification, Yersinia genetics, Anti-Bacterial Agents isolation & purification, Fresh Water microbiology, Pseudomonas isolation & purification, Pseudomonas metabolism, Yersinia isolation & purification, Yersinia metabolism

Abstract

The ability of three psychrotrophic Gram-negative bacilli isolated from Chilean Patagonian cold freshwater rivers to produce bioactive metabolites was evaluated. The strains were isolated from cold waters rivers and identified by their biochemical properties and 16S rRNA gene analysis. The metabolites fractions showing antibacterial activity were obtained by solvent extraction and partially characterized by gas-mass chromatography (GC-MS). Antibacterial activity of the fractions was evaluated by an agar-well diffusion test upon 14 bacterial strains, both Gram positive and Gram negative. Thermal and proteolytic resistances of the antibacterial metabolites fractions were also evaluated. Molecular analysis allows the identification of the three Patagonian strains as Pseudomonas sp. RG-6 (Pseudomonas brenneri 99.6 % identity), Pseudomonas sp. RG-8 (Pseudomonas trivialis 99.6 % identity) and Yersinia sp. RP-3 (Yersinia aldovae 99.5 % identity). These extracts were able to inhibit both Gram-positive and Gram-negative bacteria but not Listeria monocytogenes. The antibacterial activity of the filtrated supernatants was lost at temperatures ≥60 °C, and was not affected by proteinase K treatment. The chemical structure of the active molecule remains to be elucidated, although the GC-MS analysis of the filtrates suggests that compounds like sesquiterpenes derivatives from β-maaliene or δ-selinene could be responsible of this antibacterial activity. Pristine cold freshwater streams showed to be interesting sources of metabolites-producing microorganisms with antibacterial activity.

Published

2013

34. Histopathological effects of the Yen-Tc toxin complex from Yersinia entomophaga MH96 (Enterobacteriaceae) on the Costelytra zealandica (Coleoptera: Scarabaeidae) larval midgut.

Author

Marshall SD, Hares MC, Jones SA, Harper LA, Vernon JR, Harland DP, Jackson TA, and Hurst MR

Subjects

Animals, Bacterial Toxins chemistry, Bacterial Toxins genetics, Caco-2 Cells, Coleoptera drug effects, Coleoptera growth & development, Digestive System cytology, Humans, Larva microbiology, Microscopy, Electron, Transmission, Yersinia classification, Yersinia metabolism, Bacterial Toxins toxicity, Coleoptera microbiology, Digestive System microbiology, Digestive System pathology, Yersinia pathogenicity

Abstract

Yersinia entomophaga MH96, which was originally isolated from the New Zealand grass grub, Costelytra zealandica, produces an orally active proteinaceous toxin complex (Yen-Tc), and this toxin is responsible for mortality in a range of insect species, mainly within the Coleoptera and Lepidoptera. The genes encoding Yen-Tc are members of the toxin complex (Tc) family, with orthologs identified in several other bacterial species. As the mechanism of Yen-Tc activity remains unknown, a histopathological examination of C. zealandica larvae was undertaken in conjunction with cultured cells to identify the effects of Yen-Tc and to distinguish the contributions that its individual subunit components make upon intoxication. A progressive series of events that led to the deterioration of the midgut epithelium was observed. Additionally, experiments using a cell culture assay system were carried out to determine the cellular effects of intoxication on cells after topical application and the transient expression of Yen-Tc and its individual components. While observations were broadly consistent with those previously reported for other Tc family members, some differences were noted. In particular, the distinct stepwise disintegration of the midgut shared features associated with both apoptosis and necrotic programmed cell death pathways. Second, we observed, for the first time, a contribution of toxicity from two chitinases associated with the Yen-Tc complex. Our findings were suggestive of the activities encoded within the subunit components of Yen-Tc targeting different sites along putative programmed cell death pathways. Given the observed broad host range for Yen-Tc, these targeted loci are likely to be widely shared among insects.

Published

2012

35. Isolation of enteropathogenic Yersinia from non-human sources.

Author

Fredriksson-Ahomaa M

Subjects

Animals, Culture Media, Humans, Serotyping, Yersinia classification, Yersinia pathogenicity, Yersinia isolation & purification

Published

2012

36. The molecular phylogeny of the gyrB gene: a molecular marker for systematic characterization of the genus Yersinia.

Author

Stenkova AM, Isaeva MP, Bystritskaya EP, Guzev KV, Rasskazov VA, and Rakin A

Subjects

Phylogeny, Yersinia classification, DNA Gyrase genetics, Yersinia genetics

Published

2012

37. Yersinia nurmii sp. nov.

Author

Murros-Kontiainen A, Fredriksson-Ahomaa M, Korkeala H, Johansson P, Rahkila R, and Björkroth J

Subjects

Animals, Bacterial Proteins genetics, Bacterial Typing Techniques, Chickens, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Molecular Sequence Data, Multilocus Sequence Typing, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Yersinia genetics, Meat microbiology, Yersinia classification, Yersinia isolation & purification

Abstract

This study was set up to identify three Gram-negative, rod-shaped strains originating from broiler meat packaged under a modified atmosphere. A polyphasic taxonomic approach, including multilocus sequence analysis (MLSA) of five genes (16S rRNA, glnA, gyrB, recA and HSP60), DNA-DNA reassociation between the closest phylogenetic neighbours and determination of relevant phenotypic properties, was applied. Phylogenetic analysis of the 16S rRNA gene sequences grouped these strains together and within the genus Yersinia. MLSA of the 16S rRNA gene and four housekeeping genes showed that the strains formed a monophyletic group separate from other Yersinia species in all phylogenetic trees constructed. The strains had a phenotypic profile different from those of other representatives of the genus Yersinia, but most similar to that of Yersinia ruckeri. Typical virulence markers for pathogenic Yersinia were not detected. Based on phylogenetic, phenotypic and DNA-DNA reassociation data, a novel species, Yersinia nurmii sp. nov., is proposed for the isolated strains. The type strain is APN3a-c(T) ( = DSM 22296(T)  = LMG 25213(T)).

Published

2011

38. Yersinia pekkanenii sp. nov.

Author

Murros-Kontiainen A, Johansson P, Niskanen T, Fredriksson-Ahomaa M, Korkeala H, and Björkroth J

Subjects

Bacterial Proteins genetics, Bacterial Typing Techniques, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Lactuca microbiology, Molecular Sequence Data, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Ribotyping, Sequence Analysis, DNA, Soil Microbiology, Virulence Factors genetics, Water Microbiology, Yersinia genetics, Yersinia classification, Yersinia isolation & purification

Abstract

The taxonomic position of three strains from water, soil and lettuce samples was studied by using a polyphasic taxonomic approach. The strains were reported to lack the virulence-encoding genes inv and virF in a previous study. Controversially, API 20 E and some other phenotypic tests suggested that the strains belong to Yersinia pseudotuberculosis, which prompted this polyphasic taxonomic study. In both the phylogenetic analyses of four housekeeping genes (glnA, gyrB, recA and HSP60) and numerical analyses of HindIII and EcoRI ribopatterns, the strains formed a separate group within the genus Yersinia. Analysis of the 16S rRNA gene sequences showed that the strains were related to Yersinia aldovae and Yersinia mollaretii, but DNA-DNA hybridization analysis differentiated them from these species. Based on the results of the phylogenetic and DNA-DNA hybridization analyses, a novel species, Yersinia pekkanenii sp. nov., is proposed. The type strain is ÅYV7.1KOH2(T) ( = DSM 22769(T)  = LMG 25369(T)).

Published

2011

39. Different enteropathogenic Yersinia strains found in wild boars and domestic pigs.

Author

Fredriksson-Ahomaa M, Wacheck S, Bonke R, and Stephan R

Subjects

Adhesins, Bacterial genetics, Adhesins, Bacterial metabolism, Animals, Anti-Bacterial Agents pharmacology, Bacterial Outer Membrane Proteins genetics, Bacterial Outer Membrane Proteins metabolism, Bacterial Typing Techniques veterinary, Disease Reservoirs microbiology, Disease Vectors, Drug Resistance, Bacterial genetics, Electrophoresis, Gel, Pulsed-Field veterinary, Genes, Bacterial, Palatine Tonsil microbiology, Switzerland, Virulence genetics, Virulence Factors genetics, Yersinia genetics, Yersinia pathogenicity, Yersinia enterocolitica drug effects, Yersinia enterocolitica genetics, Yersinia enterocolitica isolation & purification, Yersinia enterocolitica pathogenicity, Yersinia pseudotuberculosis drug effects, Yersinia pseudotuberculosis genetics, Yersinia pseudotuberculosis isolation & purification, Yersinia pseudotuberculosis pathogenicity, Yersinia pseudotuberculosis Infections microbiology, Yersinia pseudotuberculosis Infections veterinary, Animals, Wild microbiology, Disease Reservoirs veterinary, Genetic Variation, Sus scrofa microbiology, Yersinia classification, Yersinia isolation & purification

Abstract

Yersinia enterocolitica and Yersinia pseudotuberculosis strains isolated from wild boars and fattening pigs were characterized and compared with each other. In wild boars, ail-positive Y. enterocolitica strains belonged to bioserotypes 4/O:3 (36%, 5/14), 2/O:9 (29%, 4/14), and 2/O:5,27 (21%, 3/14). Additionally, two ail-positive strains were untypable. Among fattening pigs, the bioserotype 4/O:3 was dominating (91%, 71/78), and bioserotypes 2/O:5,27 (8%, 6/78) and 2/O:9 (1%, 1/78) were rare. inv-positive Y. pseudotuberculosis strains of serotypes O:1 and O:2 were isolated only from wild boars. Antimicrobial resistance patterns between wild boar and fattening pig strains differed. Most of the ail-positive Y. enterocolitica strains carried yst, hreP, and virF genes. Several genotypes of Y. enterocolitica strains were obtained by PFGE using NotI, ApaI, XhoI, and SpeI enzymes. All genotypes of wild boar strains differed from fattening pig strains. Especially strains of bioserotype 4/O:3 were clearly different with all four enzymes. These results show that wild boar strains differed from domestic pig strains. More wild boar strains should be isolated to show that wild boars and domestic pigs are reservoirs for different Y. enterocolitica and Y. pseudotuberculosis strains.

Published

2011

40. Emended description of Yersinia massiliensis.

Author

Souza RA, Falcão DP, and Falcão JP

Subjects

Animals, Cattle, DNA, Bacterial genetics, Fatty Acids metabolism, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Yersinia genetics, Yersinia metabolism, Lactuca microbiology, Milk microbiology, Water Microbiology, Yersinia classification, Yersinia isolation & purification

Abstract

The bacterial genus Yersinia belongs to the family Enterobacteriaceae and comprises 15 species. Species of the genus Yersinia are usually identified by their phenotypic characteristics. Thus, it is essential to establish a complete phenotypic classification for all species of the genus Yersinia. The species Yersinia massiliensis was proposed in 2008, based on 16S rRNA, gyrB, hsp60, rpoB and sodA gene sequences and some distinguishing phenotypic characteristics. In this study, four Yersinia strains classified as Y. massiliensis based on the sequencing of the loci mentioned above were subjected to a more detailed phenotypic characterization. This characterization revealed differences in the results of four tests previously reported as diagnostic for Y. massiliensis and the results of 18 additional tests provided new information about the biochemical diversity of this species. In the light of the results of the phenotypic characteristics of the four strains of Y. massiliensis, an emended description of Y. massiliensis is presented.

Published

2011

41. Independent emergence of Yersinia ruckeri biotype 2 in the United States and Europe.

Author

Welch TJ, Verner-Jeffreys DW, Dalsgaard I, Wiklund T, Evenhuis JP, Cabrera JA, Hinshaw JM, Drennan JD, and LaPatra SE

Subjects

Alleles, Animals, Aquaculture, Bacterial Proteins genetics, Bacterial Typing Techniques, DNA, Bacterial chemistry, DNA, Bacterial genetics, Europe, Flagella genetics, Flagella physiology, Lipase metabolism, Locomotion, Membrane Proteins genetics, Molecular Sequence Data, Mutant Proteins genetics, Salmonidae microbiology, Sequence Analysis, DNA, United States, Yersinia genetics, Yersinia metabolism, Yersinia Infections microbiology, Fish Diseases microbiology, Yersinia classification, Yersinia isolation & purification, Yersinia Infections veterinary

Abstract

Biotype 2 (BT2) variants of the bacterium Yersinia ruckeri are an increasing disease problem in U.S. and European aquaculture and have been characterized as serovar 1 isolates that lack both peritrichous flagella and secreted phospholipase activity. The emergence of this biotype has been associated with an increased frequency of enteric redmouth disease (ERM) outbreaks in previously vaccinated salmonid fish. In this study, four independent specific natural mutations that cause the loss of both motility and secreted lipase activity were identified in BT2 strains from the United States, United Kingdom, and mainland Europe. Each of these was a unique mutation in either fliR, flhA, or flhB, all of which are genes predicted to encode essential components of the flagellar secretion apparatus. Our results demonstrate the existence of independent mutations leading to the BT2 phenotype; thus, this phenotype has emerged separately at least four times. In addition, BT2 strains from the United Kingdom were shown to have the same mutant allele found in U.S. BT2 strains, suggesting a common origin of this BT2 lineage. This differentiation of distinct BT2 lineages is of critical importance for the development and validation of alternative vaccines or other treatment strategies intended for the control of BT2 strains.

Published

2011

42. Yersinia entomophaga sp. nov., isolated from the New Zealand grass grub Costelytra zealandica.

Author

Hurst MRH, Becher SA, Young SD, Nelson TL, and Glare TR

Subjects

Animals, Bacterial Proteins genetics, Bacterial Typing Techniques, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Larva microbiology, Molecular Sequence Data, Multilocus Sequence Typing, New Zealand, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Yersinia genetics, Yersinia physiology, Coleoptera microbiology, Yersinia classification, Yersinia isolation & purification

Abstract

A Gram-negative, rod-shaped, non-spore-forming bacterium (MH96(T)) was isolated from diseased larvae of the New Zealand grass grub, Costelytra zealandica (Coleoptera: Scarabaeidae). On the basis of 16S rRNA gene sequence similarity, strain MH96(T) is a member of the genus Yersinia, which is a member of the class Gammaproteobacteria. The most similar 16S rRNA gene sequence to that of MH96(T) is that of the type strain of Yersinia mollaretii (98.5 % similarity) followed by those of the type strains of Yersinia aldovae, Y. frederiksenii and Y. rohdei (all 98.4 % similarity). Multilocus sequence typing of five housekeeping genes (dnaJ, glnA, gyrB, groEL and recA) identified Yersinia ruckeri (81-92 % similarity) as the closest relative. The results of DNA-DNA hybridization and physiological and biochemical tests allowed genotypic and phenotypic differentiation of strain MH96(T) from the four most closely related Yersinia species with validly published names, including a Y. ruckeri isolate. Strain MH96(T) therefore represents a novel species, for which the name Yersinia entomophaga sp. nov. is proposed, with the type strain MH96(T) ( = DSM 22339(T)  = ATCC BAA-1678(T)).

Published

2011

43. Reduction of enteropathogenic Yersinia in the pig slaughterhouse by using bagging of the rectum.

Author

Laukkanen R, Ranta J, Dong X, Hakkinen M, Martínez PO, Lundén J, Johansson T, and Korkeala H

Subjects

Animals, Bayes Theorem, Disease Reservoirs microbiology, Disease Reservoirs veterinary, Food Handling methods, Hygiene, Meat microbiology, Prevalence, Serotyping, Yersinia classification, Yersinia enterocolitica classification, Yersinia enterocolitica isolation & purification, Yersinia pseudotuberculosis classification, Yersinia pseudotuberculosis isolation & purification, Abattoirs, Food Contamination prevention & control, Rectum microbiology, Swine microbiology, Yersinia isolation & purification

Abstract

To evaluate the effectiveness of bagging of the rectum in mitigating the contamination of carcasses with enteropathogenic Yersinia at the slaughterhouse and to estimate the hidden prevalences of these pathogens in different farm types and capacities, samples from pigs, carcasses, and slaughterhouse environment were collected, and a Bayesian probability model was constructed. In addition, the contamination routes were studied with molecular typing of the isolated strains. According to the model, bagging of the rectum reduced carcass contamination significantly with pathogenic Yersinia enterocolitica, but not with Yersinia pseudotuberculosis, and alone it was insufficient to completely prevent the carcass contamination with enteropathogenic Yersinia. The hidden prevalence of pathogenic Y. enterocolitica was higher at high production capacity than it was in low production capacity, but the 95 % credible intervals overlapped. Slaughterhouse environments can contaminate carcasses with enteropathogenic Yersinia, but the plausible main contamination source is the pig carrying the pathogen.

Published

2010

44. Rapid identification and typing of Yersinia pestis and other Yersinia species by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry.

Author

Ayyadurai S, Flaudrops C, Raoult D, and Drancourt M

Subjects

Environmental Microbiology, Humans, Yersinia classification, Yersinia genetics, Yersinia Infections microbiology, Yersinia pestis chemistry, Yersinia pestis classification, Yersinia pestis genetics, Yersinia pestis isolation & purification, Bacterial Typing Techniques methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Yersinia chemistry, Yersinia isolation & purification

Abstract

Background: Accurate identification is necessary to discriminate harmless environmental Yersinia species from the food-borne pathogens Yersinia enterocolitica and Yersinia pseudotuberculosis and from the group A bioterrorism plague agent Yersinia pestis. In order to circumvent the limitations of current phenotypic and PCR-based identification methods, we aimed to assess the usefulness of matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) protein profiling for accurate and rapid identification of Yersinia species. As a first step, we built a database of 39 different Yersinia strains representing 12 different Yersinia species, including 13 Y. pestis isolates representative of the Antiqua, Medievalis and Orientalis biotypes. The organisms were deposited on the MALDI-TOF plate after appropriate ethanol-based inactivation, and a protein profile was obtained within 6 minutes for each of the Yersinia species., Results: When compared with a 3,025-profile database, every Yersinia species yielded a unique protein profile and was unambiguously identified. In the second step of analysis, environmental and clinical isolates of Y. pestis (n = 2) and Y. enterocolitica (n = 11) were compared to the database and correctly identified. In particular, Y. pestis was unambiguously identified at the species level, and MALDI-TOF was able to successfully differentiate the three biotypes., Conclusion: These data indicate that MALDI-TOF can be used as a rapid and accurate first-line method for the identification of Yersinia isolates.

Published

2010

45. Evaluation of four molecular typing methodologies as tools for determining taxonomy relations and for identifying species among Yersinia isolates.

Author

Souza RA, Pitondo-Silva A, Falcão DP, and Falcão JP

Subjects

Animals, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Electrophoresis, Gel, Pulsed-Field, Environmental Microbiology, Food Microbiology, Genotype, Humans, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Random Amplified Polymorphic DNA Technique, Sensitivity and Specificity, Sequence Analysis, DNA, Yersinia isolation & purification, Yersinia Infections diagnosis, Yersinia Infections veterinary, Bacteriological Techniques methods, DNA Fingerprinting methods, Yersinia classification, Yersinia genetics

Abstract

In the last few decades, molecular typing has become an important tool in taxonomic, phylogenetic and identification studies of numerous groups of bacteria, including the yersiniae. In this study, Enterobacterial Repetitive Intergenic Consensus PCR (ERIC-PCR), Pulsed-Field Gel Electrophoresis (PFGE), 16S rRNA gene sequencing and Multilocus Sequence Analysis (MLSA) were performed to determine the ability of these techniques to be used in taxonomy and identification of Yersinia strains. A total of 60 Yersinia strains were genotyped by ERIC-PCR and PFGE. Moreover, an in silico analysis was carried out for 16S rRNA gene sequencing and MLSA, using 68 and 49 Yersinia strains, respectively. A phylogenetic tree constructed from the ERIC-PCR, 16S rRNA gene sequencing and MLSA data grouped most of the Yersinia species into distinct species-specific clusters. In the PFGE assay these clusters were not observed. On this basis, ERIC-PCR, 16S rRNA gene sequencing and MLSA seem to be valuable techniques for use in taxonomic and identification studies of the genus Yersinia, whereas PFGE does not. Furthermore, ERIC-PCR has the advantage of being a cheaper, easier and faster assay than 16S rRNA gene sequencing or MLSA, and for these reasons can be considerate an alternative tool in taxonomic studies of yersiniae.

Published

2010

46. Yersinia species isolated from bats, Germany.

Author

Muhldorfer K, Wibbelt G, Haensel J, Riehm J, and Speck S

Subjects

Animals, Chiroptera classification, Germany, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Yersinia classification, Yersinia genetics, Yersinia isolation & purification, Yersinia Infections microbiology, Yersinia enterocolitica classification, Yersinia enterocolitica genetics, Yersinia pseudotuberculosis classification, Yersinia pseudotuberculosis genetics, Chiroptera microbiology, Yersinia Infections veterinary, Yersinia enterocolitica isolation & purification, Yersinia pseudotuberculosis isolation & purification

Published

2010

47. Neutrophils are resistant to Yersinia YopJ/P-induced apoptosis and are protected from ROS-mediated cell death by the type III secretion system.

Author

Spinner JL, Seo KS, O'Loughlin JL, Cundiff JA, Minnich SA, Bohach GA, and Kobayashi SD

Subjects

Animals, Bacterial Proteins genetics, Caspases metabolism, Cell Line, Cell Survival, Cells, Cultured, Enzyme Activation, Gene Deletion, Host-Pathogen Interactions, Humans, Macrophages cytology, Macrophages metabolism, Macrophages microbiology, Molecular Sequence Data, Mutation, Neutrophils cytology, Neutrophils microbiology, Phosphatidylserines metabolism, Species Specificity, Yersinia classification, Yersinia genetics, Apoptosis, Bacterial Proteins physiology, Neutrophils metabolism, Reactive Oxygen Species metabolism, Yersinia physiology

Abstract

Background: The human innate immune system relies on the coordinated activity of macrophages and polymorphonuclear leukocytes (neutrophils or PMNs) for defense against bacterial pathogens. Yersinia spp. subvert the innate immune response to cause disease in humans. In particular, the Yersinia outer protein YopJ (Y. pestis and Y. pseudotuberculosis) and YopP (Y. enterocolitica) rapidly induce apoptosis in murine macrophages and dendritic cells. However, the effects of Yersinia Yop J/P on neutrophil fate are not clearly defined., Methodology/principal Findings: In this study, we utilized wild-type and mutant strains of Yersinia to test the contribution of YopJ and YopP on induction of apoptosis in human monocyte-derived macrophages (HMDM) and neutrophils. Whereas YopJ and YopP similarly induced apoptosis in HMDMs, interaction of human neutrophils with virulence plasmid-containing Yersinia did not result in PMN caspase activation, release of LDH, or loss of membrane integrity greater than PMN controls. In contrast, interaction of human PMNs with the virulence plasmid-deficient Y. pestis strain KIM6 resulted in increased surface exposure of phosphatidylserine (PS) and cell death. PMN reactive oxygen species (ROS) production was inhibited in a virulence plasmid-dependent but YopJ/YopP-independent manner. Following phagocytic interaction with Y. pestis strain KIM6, inhibition of PMN ROS production with diphenyleneiodonium chloride resulted in a reduction of PMN cell death similar to that induced by the virulence plasmid-containing strain Y. pestis KIM5., Conclusions: Our findings showed that Yersinia YopJ and/or YopP did not induce pronounced apoptosis in human neutrophils. Furthermore, robust PMN ROS production in response to virulence plasmid-deficient Yersinia was associated with increased PMN cell death, suggesting that Yersinia inhibition of PMN ROS production plays a role in evasion of the human innate immune response in part by limiting PMN apoptosis.

Published

2010

48. Characterization of atypical isolates of Yersinia intermedia and definition of two new biotypes.

Author

Martin L, Leclercq A, Savin C, and Carniel E

Subjects

Bacterial Proteins genetics, Bacterial Typing Techniques, Carbohydrate Metabolism, Citric Acid metabolism, DNA, Bacterial genetics, France, Nucleic Acid Hybridization, Paris, Virulence Factors genetics, Yersinia genetics, Yersinia metabolism, Yersinia classification, Yersinia isolation & purification, Yersinia Infections microbiology

Abstract

The species Yersinia intermedia is a member of the genus Yersinia which belongs to the Enterobacteriaceae family. This species is divided into eight biotypes, according to Brenner's biotyping scheme. This scheme relies on five tests (utilization of Simmons citrate and acid production from d-melibiose, d-raffinose, alpha-methyl-d-glucoside [alphaMG], and l-rhamnose). The collection of the French Yersinia Reference Laboratory (Institut Pasteur, Paris, France) contained 44 strains that were originally identified as Y. intermedia but whose characteristics did not fit into the biotyping scheme. These 44 strains were separated into two biochemical groups: variant 1 (positive for acid production from l-rhamnose and alphaMG and positive for Simmons citrate utlization) and variant 2 (positive for acid production from l-rhamnose and alphaMG). These atypical strains could correspond to new biotypes of Y. intermedia, to Y. frederiksenii strains having the atypical property of fermenting alphaMG, or to new Yersinia species. These strains did not exhibit growth or phenotypic properties different from those of Y. intermedia and Y. frederiksenii and did not harbor any of the virulence traits usually found in pathogenic species. DNA-DNA hybridizations performed between one strain each of variants 1 and 2 and the Y. intermedia and Y. frederiksenii type strains demonstrated that these variants do belong to the Y. intermedia species. We thus propose that Brenner's biotyping scheme be updated by adding two new biotypes: 9 (for variant 1) and 10 (for variant 2) to the species Y. intermedia.

Published

2009

49. Classification of select category A and B bacteria by Fourier transform infrared spectroscopy.

Author

Samuels AC, Snyder AP, Emge DK, Amant D, Minter J, Campbell M, and Tripathi A

Subjects

Bacillus anthracis chemistry, Bacillus anthracis classification, Bacillus anthracis growth & development, Bacteria growth & development, Brucella chemistry, Brucella classification, Brucella growth & development, Culture Media, Francisella tularensis chemistry, Francisella tularensis classification, Francisella tularensis growth & development, Image Processing, Computer-Assisted, Multivariate Analysis, Principal Component Analysis, Spectroscopy, Fourier Transform Infrared, Spores, Bacterial chemistry, Temperature, Time Factors, Yersinia chemistry, Yersinia classification, Yersinia growth & development, Bacteria chemistry, Bacteria classification, Bacterial Typing Techniques methods

Abstract

Fourier transform infrared (FT-IR) spectroscopy historically is a powerful tool for the taxonomic classification of bacteria by genus, species, and strain when they are grown under carefully controlled conditions. Relatively few reports have investigated the determination and classification of pathogens such as the National Institute of Allergy and Infectious Diseases (NIAID) Category A Bacillus anthracis spores and cells (BA), Yersinia species, Francisella tularensis (FT), and Category B Brucella species from FT-IR spectra. We investigated the multivariate statistics classification ability of the FT-IR spectra of viable pathogenic and non-pathogenic NIAID Category A and B bacteria. The impact of different growth media, growth time and temperature, rolling circle filter of the data, and wavelength range were investigated for their microorganism differentiation capability. Viability of the bacteria was confirmed by agar plate growth after the FT-IR experimental procedures were performed. Principal component analysis (PCA) was reduced to maps of two PC vectors in order to distill the FT-IR spectral features into manageable, visual presentations. The PCA results of the strains of BA, FT, Brucella, and Yersinia spectra from conditions of varying growth media and culture time were readily separable in two-dimensional (2D) PC plots. FT spectra were separated from those of the three other genera. The BA pathogenic spore strains 1029, LA1, and Ames were clearly differentiated from the rest of the dataset. Yersinia rhodei, Y. enterocolitica, and Y. pestis species were distinctly separated from the remaining dataset and could also be classified by growth media. Different growth media produced distinct subsets in the FT, BA, and Yersinia spp. regions in the 2D PC plots. Various 2D PC plots provided differential degrees of separation with respect to the four viable bacterial genera including the BA sub-categories of pathogenic spores, vegetative cells, and nonpathogenic vegetative cells. This work provided evidence that FT-IR spectroscopy can indeed separate the four major pathogenic bacterial genera of NIAID Category A and B biological threat agents including details according to the growth conditions and statistical parameters.

Published

2009

50. Discrimination between biothreat agents and 'near neighbor' species using a resequencing array.

Author

Taitt CR, Malanoski AP, Lin B, Stenger DA, Ligler FS, Kusterbeck AW, Anderson GP, Harmon SE, Shriver-Lake LC, Pollack SK, Lennon DM, Lobo-Menendez F, Wang Z, and Schnur JM

Subjects

Anthrax diagnosis, Anthrax microbiology, Bacillus anthracis classification, Bacillus anthracis genetics, Bacillus anthracis isolation & purification, Bacillus cereus classification, Bacillus cereus genetics, Bacillus cereus isolation & purification, Double-Blind Method, Francisella classification, Francisella genetics, Francisella isolation & purification, Humans, Plague diagnosis, Plague microbiology, Polymorphism, Single Nucleotide, Species Specificity, Tularemia diagnosis, Tularemia microbiology, Yersinia classification, Yersinia genetics, Yersinia isolation & purification, Bacterial Typing Techniques, Bioterrorism prevention & control, Francisella tularensis classification, Francisella tularensis genetics, Francisella tularensis isolation & purification, Oligonucleotide Array Sequence Analysis methods, Sequence Analysis, DNA methods, Yersinia pestis classification, Yersinia pestis genetics, Yersinia pestis isolation & purification

Abstract

Timely identification of biothreat organisms from large numbers of clinical or environmental samples in potential outbreak or attack scenario is critical for effective diagnosis and treatment. This study aims to evaluate the potential of resequencing arrays for this purpose. Albeit suboptimal, this report demonstrated that respiratory pathogen microarray version 1 can identify Bacillus anthracis, Francisella tularensis, Yersinia pestis and distinguish them from benign 'near neighbor' species in a single assay. Additionally, the sequence information can discriminate strains and possibly the sources of the strains. With further development, it is possible to use resequencing microarrays for biothreat surveillance.

Published

2008