Genome reduction is associated with bacterial pathogenicity across different scales of temporal and ecological divergence
Genome reduction is associated with bacterial pathogenicity across different scales of temporal and ecological divergence
Emerging bacterial pathogens threaten global health and food security, and so it is important to ask whether these transitions to pathogenicity have any common features. We present a systematic study of the claim that pathogenicity is associated with genome reduction and gene loss. We compare broad-scale patterns across all bacteria, with detailed analyses of Streptococcus suis, an emerging zoonotic pathogen of pigs, which has undergone multiple transitions between disease and carriage forms. We find that pathogenicity is consistently associated with reduced genome size across three scales of divergence (between species within genera, and between and within genetic clusters of S. suis). Although genome reduction is also found in mutualist and commensal bacterial endosymbionts, genome reduction in pathogens cannot be solely attributed to the features of their ecology that they share with these species, that is, host restriction or intracellularity. Moreover, other typical correlates of genome reduction in endosymbionts (reduced metabolic capacity, reduced GC content, and the transient expansion of nonfunctional elements) are not consistently observed in pathogens. Together, our results indicate that genome reduction is a consistent correlate of pathogenicity in bacteria.
1570-1579
Murray, Gemma
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Charlesworth, Jane
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Miller, Eric L
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Casey, Michael J
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Lloyd, Catrin T
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Gottschalk, Marcelo
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Tucker, Alexander W (dan)
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Welch, John J
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Weinert, Lucy A
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Falush, Daniel
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13 April 2021
Murray, Gemma
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Charlesworth, Jane
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Miller, Eric L
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Casey, Michael J
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Lloyd, Catrin T
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Gottschalk, Marcelo
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Tucker, Alexander W (dan)
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Welch, John J
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Weinert, Lucy A
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Falush, Daniel
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Murray, Gemma, Charlesworth, Jane, Miller, Eric L, Casey, Michael J, Lloyd, Catrin T, Gottschalk, Marcelo, Tucker, Alexander W (dan), Welch, John J and Weinert, Lucy A
,
Falush, Daniel
(ed.)
(2021)
Genome reduction is associated with bacterial pathogenicity across different scales of temporal and ecological divergence.
Molecular Biology and Evolution, 38 (4), .
(doi:10.1093/molbev/msaa323).
Abstract
Emerging bacterial pathogens threaten global health and food security, and so it is important to ask whether these transitions to pathogenicity have any common features. We present a systematic study of the claim that pathogenicity is associated with genome reduction and gene loss. We compare broad-scale patterns across all bacteria, with detailed analyses of Streptococcus suis, an emerging zoonotic pathogen of pigs, which has undergone multiple transitions between disease and carriage forms. We find that pathogenicity is consistently associated with reduced genome size across three scales of divergence (between species within genera, and between and within genetic clusters of S. suis). Although genome reduction is also found in mutualist and commensal bacterial endosymbionts, genome reduction in pathogens cannot be solely attributed to the features of their ecology that they share with these species, that is, host restriction or intracellularity. Moreover, other typical correlates of genome reduction in endosymbionts (reduced metabolic capacity, reduced GC content, and the transient expansion of nonfunctional elements) are not consistently observed in pathogens. Together, our results indicate that genome reduction is a consistent correlate of pathogenicity in bacteria.
Text
msaa323
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e-pub ahead of print date: 12 December 2020
Published date: 13 April 2021
Identifiers
Local EPrints ID: 472291
URI: http://eprints.soton.ac.uk/id/eprint/472291
ISSN: 1537-1719
PURE UUID: 04d497f3-6edc-4116-bf80-9edbd5d82b60
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Date deposited: 30 Nov 2022 17:47
Last modified: 16 Mar 2024 23:17
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Contributors
Author:
Gemma Murray
Author:
Jane Charlesworth
Author:
Eric L Miller
Author:
Michael J Casey
Author:
Catrin T Lloyd
Author:
Marcelo Gottschalk
Author:
Alexander W (dan) Tucker
Author:
John J Welch
Author:
Lucy A Weinert
Editor:
Daniel Falush
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