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A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen
Auteur(s)
Alice Feurtey
Cécile Lorrain
Megan C. McDonald
Andrew Milgate
Peter S. Solomon
Rachael Warren
Guido Puccetti
Gabriel Scalliet
Stefano F. F. Torriani
Lilian Gout
Thierry C. Marcel
Frédéric Suffert
Julien Alassimone
Anna Lipzen
Yuko Yoshinaga
Christopher Daum
Kerrie Barry
Igor V. Grigoriev
Stephen B. Goodwin
Anne Genissel
Michael F. Seidl
Eva H. Stukenbrock
Marc-Henri Lebrun
Gert H. J. Kema
Bruce A. McDonald
Date de parution
2023
In
Nature Communications
Vol.
14
No
1
De la page
1
A la page
15
Résumé
<jats:title>Abstract</jats:title><jats:p>Human activity impacts the evolutionary trajectories of many species worldwide. Global trade of agricultural goods contributes to the dispersal of pathogens reshaping their genetic makeup and providing opportunities for virulence gains. Understanding how pathogens surmount control strategies and cope with new climates is crucial to predicting the future impact of crop pathogens. Here, we address this by assembling a global thousand-genome panel of <jats:italic>Zymoseptoria tritici</jats:italic>, a major fungal pathogen of wheat reported in all production areas worldwide. We identify the global invasion routes and ongoing genetic exchange of the pathogen among wheat-growing regions. We find that the global expansion was accompanied by increased activity of transposable elements and weakened genomic defenses. Finally, we find significant standing variation for adaptation to new climates encountered during the global spread. Our work shows how large population genomic panels enable deep insights into the evolutionary trajectory of a major crop pathogen.</jats:p>
Identifiants
Type de publication
journal article
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