Comprehensive blueprint of Salmonella genomic plasticity identifies hotspots for pathogenicity genes
Comprehensive blueprint of Salmonella genomic plasticity identifies hotspots for pathogenicity genes
Understanding the dynamic evolution of Salmonella is vital for effective bacterial infection management. This study explores the role of the flexible genome, organised in regions of genomic plasticity (RGP), in shaping the pathogenicity of Salmonella lineages. Through comprehensive genomic analysis of 12,244 Salmonella spp. genomes covering 2 species, 6 subspecies, and 46 serovars, we uncover distinct integration patterns of pathogenicity-related gene clusters into RGP, challenging traditional views of gene distribution. These RGP exhibit distinct preferences for specific genomic spots, and the presence or absence of such spots across Salmonella lineages profoundly shapes strain pathogenicity. RGP preferences are guided by conserved flanking genes surrounding integration spots, implicating their involvement in regulatory networks and functional synergies with integrated gene clusters. Additionally, we emphasise the multifaceted contributions of plasmids and prophages to the pathogenicity of diverse Salmonella lineages. Overall, this study provides a comprehensive blueprint of the pathogenicity potential of Salmonella. This unique insight identifies genomic spots in nonpathogenic lineages that hold the potential for harbouring pathogenicity genes, providing a foundation for predicting future adaptations and developing targeted strategies against emerging human pathogenic strains.
Kushwaha, Simran Krishnakant
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Wu, Yi
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Avila, Hugo Leonardo
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Anand, Abhirath
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Sicheritz-Pontén, Thomas
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Millard, Andrew
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Marathe, Sandhya Amol
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Nobrega, Franklin L.
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7 August 2024
Kushwaha, Simran Krishnakant
bd1a5904-de6d-4b1e-8cf4-9a0438d8b6cf
Wu, Yi
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Avila, Hugo Leonardo
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Anand, Abhirath
c3d49f75-2646-4752-949b-7c1bef602a61
Sicheritz-Pontén, Thomas
793c15a6-ead3-4651-b5c7-85d09c81b4f5
Millard, Andrew
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Marathe, Sandhya Amol
65d36be0-c452-47dc-869b-7d9854aff85f
Nobrega, Franklin L.
6532795d-88a4-4f05-9b26-6af5b8f21a0d
Kushwaha, Simran Krishnakant, Wu, Yi, Avila, Hugo Leonardo, Anand, Abhirath, Sicheritz-Pontén, Thomas, Millard, Andrew, Marathe, Sandhya Amol and Nobrega, Franklin L.
(2024)
Comprehensive blueprint of Salmonella genomic plasticity identifies hotspots for pathogenicity genes.
PLoS Biology, 22 (8), [e3002746].
(doi:10.1371/journal.pbio.3002746).
Abstract
Understanding the dynamic evolution of Salmonella is vital for effective bacterial infection management. This study explores the role of the flexible genome, organised in regions of genomic plasticity (RGP), in shaping the pathogenicity of Salmonella lineages. Through comprehensive genomic analysis of 12,244 Salmonella spp. genomes covering 2 species, 6 subspecies, and 46 serovars, we uncover distinct integration patterns of pathogenicity-related gene clusters into RGP, challenging traditional views of gene distribution. These RGP exhibit distinct preferences for specific genomic spots, and the presence or absence of such spots across Salmonella lineages profoundly shapes strain pathogenicity. RGP preferences are guided by conserved flanking genes surrounding integration spots, implicating their involvement in regulatory networks and functional synergies with integrated gene clusters. Additionally, we emphasise the multifaceted contributions of plasmids and prophages to the pathogenicity of diverse Salmonella lineages. Overall, this study provides a comprehensive blueprint of the pathogenicity potential of Salmonella. This unique insight identifies genomic spots in nonpathogenic lineages that hold the potential for harbouring pathogenicity genes, providing a foundation for predicting future adaptations and developing targeted strategies against emerging human pathogenic strains.
Text
journal.pbio.3002746
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Accepted/In Press date: 10 July 2024
e-pub ahead of print date: 7 August 2024
Published date: 7 August 2024
Identifiers
Local EPrints ID: 511672
URI: http://eprints.soton.ac.uk/id/eprint/511672
ISSN: 1544-9173
PURE UUID: 483dd054-671b-43b5-a38f-35d2d200a5d4
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Date deposited: 27 May 2026 16:33
Last modified: 28 May 2026 01:59
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Contributors
Author:
Simran Krishnakant Kushwaha
Author:
Hugo Leonardo Avila
Author:
Abhirath Anand
Author:
Thomas Sicheritz-Pontén
Author:
Andrew Millard
Author:
Sandhya Amol Marathe
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