A Whole-Genome-Based Gene-by-Gene Typing System for Standardized High-Resolution Strain Typing of Bacillus anthracis

Abdel-Glil, Mostafa Y.; Chiaverini, Alexandra; Garofolo, Giuliano; Fasanella, Antonio; Parisi, Antonio; Harmsen, Dag; Jolley, Keith A.; Elschner, Mandy C.; Tomaso, Herbert; Linde, Jörg; Galante, Domenico

doi:10.1128/jcm.02889-20

Cited by 26 publications

(42 citation statements)

References 46 publications

(85 reference statements)

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“…Supplementary Figure 2 illustrates the congruence between MLVA31 and wgSNP with one minor exception: the three MLVA31 genotypes constituting MLVA31 clonal complex CC01 ( Supplementary Figure 1 MLVA31 genotypes 1, 2, and 3) belong to different “STI” sublineages separated by almost 100 SNPs. The eight redundant control strains (black dots) are located at zero up to five SNPs from their “sister” strain (same outbreak and same MLVA31 genotype) as is typical for strains from the same outbreak ( Vergnaud, 2020 ; Abdel-Glil et al, 2021 ). In the five events (open dots, events 04, 10, 11, 15, 17) showing two MLVA31 genotypes differing at only one locus, the strains are less than three SNPs apart.…”

Section: Resultsmentioning

confidence: 99%

“…Owing to its strict clonality, the population structure of B. anthracis is conveniently reflected by canonical Single Nucleotide Polymorphism (canSNP) assignment ( Keim et al, 2004 ; Van Ert et al, 2007 ; Sahl et al, 2016 ). Alternative schemes have recently being proposed, including a core genome multilocus sequence typing (cgMLST) approach benefiting from software developed for recombining pathogens ( Abdel-Glil et al, 2021 ) or even a complete renaming inspired by the nomenclature used for Mycobacterium tuberculosis ( Bruce et al, 2020 ). While the cgMLST approach may be convenient for the automated, first-level assignment of whole genome sequence data, the proposition of a full renaming does not bring detectable added value compared to the currently used nomenclature ( Sahl et al, 2016 ).…”

Section: Introductionmentioning

confidence: 99%

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Bacillus anthracis Phylogeography: New Clues From Kazakhstan, Central Asia

Shevtsov

Lukhnova²,

Izbanova³

et al. 2021

Front. Microbiol.

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This article describes Bacillus anthracis strains isolated in Kazakhstan since the 1950s until year 2016 from sixty-one independent events associated with anthrax in humans and animals. One hundred and fifty-four strains were first genotyped by Multiple Locus VNTR (variable number of tandem repeats) Analysis (MLVA) using 31 VNTR loci. Thirty-five MLVA31 genotypes were resolved, 28 belong to the A1/TEA group, five to A3/Sterne-Ames group, one to A4/Vollum and one to the B clade. This is the first report of the presence of the B-clade in Kazakhstan. The MLVA31 results and epidemiological data were combined to select a subset of seventy-nine representative strains for draft whole genome sequencing (WGS). Strains from Kazakhstan significantly enrich the known phylogeny of the Ames group polytomy, including the description of a new branch closest to the Texas, United States A.Br.Ames sublineage stricto sensu. Three among the seven currently defined branches in the TEA polytomy are present in Kazakhstan, “Tsiankovskii”, “Heroin”, and “Sanitary Technical Institute (STI)”. In particular, strains from the STI lineage are largely predominant in Kazakhstan and introduce numerous deep branching STI sublineages, demonstrating a high geographic correspondence between “STI” and Kazakhstan, Central Asia. This observation is a strong indication that the TEA polytomy emerged after the last political unification of Asian steppes in the fourteenth century of the Common Era. The phylogenetic analysis of the Kazakhstan data and of currently available WGS data of worldwide origin strengthens our understanding of B. anthracis geographic expansions in the past seven centuries.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bacillus anthracis Phylogeography: New Clues From Kazakhstan, Central Asia

Shevtsov

Lukhnova²,

Izbanova³

et al. 2021

Front. Microbiol.

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“…The genomes of strains BF-1 and BF-5 differ by only three chromosomal SNPs ( Table 1 ). A recent genomic study on an anthrax outbreak in Italy found strains differing by up to five SNPs ( 39 ). Genome analysis for epidemiological investigation of strains associated with injectional anthrax led the authors to the conclusion that genetic variation is possibly generated as a result of infection of a single host.…”

Section: Discussionmentioning

confidence: 99%

Reoccurring Bovine Anthrax in Germany on the Same Pasture after 12 Years

Braun¹,

Beyer

Hanczaruk³

et al. 2022

J Clin Microbiol

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The zoonotic disease anthrax caused by the endospore-forming bacterium Bacillus anthracis is very rare in Germany. In the state of Bavaria, the last case occurred in July of 2009 resulting in four dead cows. In August of 2021, the disease reemerged after heavy rains, killing one gestating cow. Notably, both outbreaks affected the same pasture, suggesting a close epidemiological connection. B. anthracis could be grown from blood culture and the presence of both virulence plasmids (pXO1 and pXO2) was confirmed by PCR. Also, recently developed diagnostic tools enabled rapid detection of B. anthracis cells and nucleic acids directly in clinical samples. The complete genome of the strain isolated from blood, designated BF-5, was DNA-sequenced and phylogenetically grouped within the B.Br.CNEVA clade that is typical for European B. anthracis strains. The genome was almost identical to BF-1, the isolate of 2009, separated only by three single nucleotide polymorphisms on the chromosome, one on plasmid pXO2 and three indel-regions. Further, B. anthracis DNA was detected by PCR from soil-samples taken from spots, where the cow had fallen onto the pasture. New tools based on phage receptor binding proteins enabled the microscopic detection and isolation of B. anthracis directly from soil-samples. These environmental isolates were genotyped and found to be SNP-identical to BF-5. Therefore, it seems that the BF-5 genotype is currently the prevalent one at the affected premises. The contaminated area at the cadaver was subsequently disinfected with formaldehyde.

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“…The genomes of strains BF-1 and BF-5 differ by only three chromosomal SNPs (Table 1). A recent genomic study on an anthrax-outbreak in Italy found strains differing by up to five SNPs [37]. Genome analysis for epidemiologic investigation of strains associated with injectional anthrax have led the authors to the conclusion that genetic variation is possibly generated as a result of infection of a single host but some phylogenetic patterns might be best explained by diversity introduced through several infection-cycles of B. anthracis in several hosts [8].…”

Section: Discussionmentioning

confidence: 99%

Reoccurring Bovine Anthrax in Germany on the Same Pasture after 12 Years

Braun¹,

Beyer²,

Hanczaruk³

et al. 2021

Preprint

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The zoonotic disease anthrax caused by the endospore-forming bacterium Bacillus anthracis is very rare in Germany. In the state of Bavaria, the last case occurred in July of 2009 resulting in four dead cows. In August of 2021, the disease reemerged after heavy rains, killing one gestating cow. Notably, both outbreaks affected the same pasture, suggesting a close epidemiological connection. B. anthracis could be grown from blood culture and the presence of both virulence plasmids (pXO1 and pXO2) were confirmed by PCR. Also, recently developed diagnostic tools enabled rapid detection of B. anthracis cells and nucleic acids directly in clinical samples. The complete genome of the strain isolated from blood, designated BF-5, was DNA-sequenced and phylogenetically grouped within the B.Br.CNEVA clade that is typical for European B. anthracis strains. The genome was almost identical to BF-1, the isolate of 2009, separated only by three single nucleotide polymorphisms on the chromosome, one on plasmid pXO2 and three indel-regions. Further, B. anthracis DNA was detected by PCR from soil-samples taken from spots, where the cow had fallen onto the pasture. New tools based on phage receptor binding proteins enabled the microscopic detection and isolation of B. anthracis directly from soil-samples. These environmental isolates were genotyped and found to be SNP-identical to BF-1. Therefore, it seems that the BF-5 genotype is currently the prevalent one at the affected premises. The contaminated area was subsequently disinfected with formaldehyde.

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A Whole-Genome-Based Gene-by-Gene Typing System for Standardized High-Resolution Strain Typing of Bacillus anthracis

Cited by 26 publications

References 46 publications

Bacillus anthracis Phylogeography: New Clues From Kazakhstan, Central Asia

Bacillus anthracis Phylogeography: New Clues From Kazakhstan, Central Asia

Reoccurring Bovine Anthrax in Germany on the Same Pasture after 12 Years

Reoccurring Bovine Anthrax in Germany on the Same Pasture after 12 Years

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