Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.

Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.

During an anthrax outbreak at the Pollino National Park (Basilicata, Italy) in 2004, diseased cattle were buried and from these anthrax-foci Bacillus anthracis endospores still diffuse to the surface resulting in local accumulations. Recent data suggest that B. anthracis multiplies in soil outside t...

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Main Authors: Peter Braun, Gregor Grass, Angela Aceti, Luigina Serrecchia, Alessia Affuso, Leonardo Marino, Stefania Grimaldi, Stefania Pagano, Matthias Hanczaruk, Enrico Georgi, Bernd Northoff, Anne Schöler, Michael Schloter, Markus Antwerpen, Antonio Fasanella
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0135346
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spelling doaj-163c0ef20f154c55b1fdcac60c119dd22021-03-03T20:00:03ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01108e013534610.1371/journal.pone.0135346Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.Peter BraunGregor GrassAngela AcetiLuigina SerrecchiaAlessia AffusoLeonardo MarinoStefania GrimaldiStefania PaganoMatthias HanczarukEnrico GeorgiBernd NorthoffAnne SchölerMichael SchloterMarkus AntwerpenAntonio FasanellaDuring an anthrax outbreak at the Pollino National Park (Basilicata, Italy) in 2004, diseased cattle were buried and from these anthrax-foci Bacillus anthracis endospores still diffuse to the surface resulting in local accumulations. Recent data suggest that B. anthracis multiplies in soil outside the animal-host body. This notion is supported by the frequent isolation of B. anthracis from soil lacking one or both virulence plasmids. Such strains represent an evolutionary dead end, as they are likely no longer able to successfully infect new hosts. This loss of virulence plasmids is explained most simply by postulating a soil-borne life cycle of the pathogen. To test this hypothesis we investigated possible microevolution at two natural anthrax foci from the 2004 outbreak. If valid, then genotypes of strains isolated from near the surface at these foci should be on a different evolutionary trajectory from those below residing in deeper-laying horizons close to the carcass. Thus, the genetic diversity of B. anthracis isolates was compared conducting Progressive Hierarchical Resolving Assays using Nucleic Acids (PHRANA) and next generation Whole Genome Sequencing (WGS). PHRANA was not discriminatory enough to resolve the fine genetic relationships between the isolates. Conversely, WGS of nine isolates from near-surface and nine from near-carcass revealed five isolate specific SNPs, four of which were found only in different near-surface isolates. In support of our hypothesis, one surface-isolate lacked plasmid pXO1 and also harbored one of the unique SNPs. Taken together, our results suggest a limited soil-borne life cycle of B. anthracis.https://doi.org/10.1371/journal.pone.0135346
collection DOAJ
language English
format Article
sources DOAJ
author Peter Braun
Gregor Grass
Angela Aceti
Luigina Serrecchia
Alessia Affuso
Leonardo Marino
Stefania Grimaldi
Stefania Pagano
Matthias Hanczaruk
Enrico Georgi
Bernd Northoff
Anne Schöler
Michael Schloter
Markus Antwerpen
Antonio Fasanella
spellingShingle Peter Braun
Gregor Grass
Angela Aceti
Luigina Serrecchia
Alessia Affuso
Leonardo Marino
Stefania Grimaldi
Stefania Pagano
Matthias Hanczaruk
Enrico Georgi
Bernd Northoff
Anne Schöler
Michael Schloter
Markus Antwerpen
Antonio Fasanella
Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
PLoS ONE
author_facet Peter Braun
Gregor Grass
Angela Aceti
Luigina Serrecchia
Alessia Affuso
Leonardo Marino
Stefania Grimaldi
Stefania Pagano
Matthias Hanczaruk
Enrico Georgi
Bernd Northoff
Anne Schöler
Michael Schloter
Markus Antwerpen
Antonio Fasanella
author_sort Peter Braun
title Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
title_short Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
title_full Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
title_fullStr Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
title_full_unstemmed Microevolution of Anthrax from a Young Ancestor (M.A.Y.A.) Suggests a Soil-Borne Life Cycle of Bacillus anthracis.
title_sort microevolution of anthrax from a young ancestor (m.a.y.a.) suggests a soil-borne life cycle of bacillus anthracis.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description During an anthrax outbreak at the Pollino National Park (Basilicata, Italy) in 2004, diseased cattle were buried and from these anthrax-foci Bacillus anthracis endospores still diffuse to the surface resulting in local accumulations. Recent data suggest that B. anthracis multiplies in soil outside the animal-host body. This notion is supported by the frequent isolation of B. anthracis from soil lacking one or both virulence plasmids. Such strains represent an evolutionary dead end, as they are likely no longer able to successfully infect new hosts. This loss of virulence plasmids is explained most simply by postulating a soil-borne life cycle of the pathogen. To test this hypothesis we investigated possible microevolution at two natural anthrax foci from the 2004 outbreak. If valid, then genotypes of strains isolated from near the surface at these foci should be on a different evolutionary trajectory from those below residing in deeper-laying horizons close to the carcass. Thus, the genetic diversity of B. anthracis isolates was compared conducting Progressive Hierarchical Resolving Assays using Nucleic Acids (PHRANA) and next generation Whole Genome Sequencing (WGS). PHRANA was not discriminatory enough to resolve the fine genetic relationships between the isolates. Conversely, WGS of nine isolates from near-surface and nine from near-carcass revealed five isolate specific SNPs, four of which were found only in different near-surface isolates. In support of our hypothesis, one surface-isolate lacked plasmid pXO1 and also harbored one of the unique SNPs. Taken together, our results suggest a limited soil-borne life cycle of B. anthracis.
url https://doi.org/10.1371/journal.pone.0135346
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