TY - JOUR
T1 - The Green Revolution shaped the population structure of the rice pathogen Xanthomonas oryzae pv. oryzae
AU - Quibod, Ian Lorenzo
AU - Atieza-Grande, Genelou
AU - Oreiro, Eula Gems
AU - Palmos, Denice
AU - Nguyen, Marian Hanna
AU - Coronejo, Sapphire Thea
AU - Aung, Ei Ei
AU - Nugroho, Cipto
AU - Roman-Reyna, Veronica
AU - Burgos, Maria Ruby
AU - Capistrano, Pauline
AU - Dossa, Sylvestre G.
AU - Onaga, Geoffrey
AU - Saloma, Cynthia
AU - Cruz, Casiana Vera
AU - Oliva, Ricardo
N1 - Funding Information:
Philippine Genome Center, National Science Complex, University of the Philippines, Diliman, 1101 Quezon City, Philippines Assessment Institute for Agricultural Technology Southeast Sulawesi, Indonesian Agency for Agricultural Research and Development, Jl. M. Yamin No. 89 Puwatu, Kendari 93114, Indonesia
Funding Information:
Acknowledgements Authors would like to thank Epifania Garcia, Ismael Mamiit, and Isabelita Oña for technical assistance. Scientists at IRRI are partially funded by the Research Program on Rice Agri-food System (RICE) from the Consortium for International Agricultural Research (CGIAR). Funding support also came from the Department of Science and Technology (DOST)–Philippine Council for Industry and Emerging Technology Research and Development. We also thank the DOST–Advanced Science and Technology Institute (DOST-ASTI) for free access to high-performance computing services. Veronica Roman-Reyna was funded by the Newton Fund.
Publisher Copyright:
© 2019, The Author(s).
PY - 2020/2/1
Y1 - 2020/2/1
N2 - The impact of modern agriculture on the evolutionary trajectory of plant pathogens is a central question for crop sustainability. The Green Revolution replaced traditional rice landraces with high-yielding varieties, creating a uniform selection pressure that allows measuring the effect of such intervention. In this study, we analyzed a unique historical pathogen record to assess the impact of a major resistance gene, Xa4, in the population structure of Xanthomonas oryzae pv. oryzae (Xoo) collected in the Philippines in a span of 40 years. After the deployment of Xa4 in the early 1960s, the emergence of virulent pathogen groups was associated with the increasing adoption of rice varieties carrying Xa4, which reached 80% of the total planted area. Whole genomes analysis of a representative sample suggested six major pathogen groups with distinctive signatures of selection in genes related to secretion system, cell-wall degradation, lipopolysaccharide production, and detoxification of host defense components. Association genetics also suggested that each population might evolve different mechanisms to adapt to Xa4. Interestingly, we found evidence of strong selective sweep affecting several populations in the mid-1980s, suggesting a major bottleneck that coincides with the peak of Xa4 deployment in the archipelago. Our study highlights how modern agricultural practices facilitate the adaptation of pathogens to overcome the effects of standard crop improvement efforts.
AB - The impact of modern agriculture on the evolutionary trajectory of plant pathogens is a central question for crop sustainability. The Green Revolution replaced traditional rice landraces with high-yielding varieties, creating a uniform selection pressure that allows measuring the effect of such intervention. In this study, we analyzed a unique historical pathogen record to assess the impact of a major resistance gene, Xa4, in the population structure of Xanthomonas oryzae pv. oryzae (Xoo) collected in the Philippines in a span of 40 years. After the deployment of Xa4 in the early 1960s, the emergence of virulent pathogen groups was associated with the increasing adoption of rice varieties carrying Xa4, which reached 80% of the total planted area. Whole genomes analysis of a representative sample suggested six major pathogen groups with distinctive signatures of selection in genes related to secretion system, cell-wall degradation, lipopolysaccharide production, and detoxification of host defense components. Association genetics also suggested that each population might evolve different mechanisms to adapt to Xa4. Interestingly, we found evidence of strong selective sweep affecting several populations in the mid-1980s, suggesting a major bottleneck that coincides with the peak of Xa4 deployment in the archipelago. Our study highlights how modern agricultural practices facilitate the adaptation of pathogens to overcome the effects of standard crop improvement efforts.
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U2 - 10.1038/s41396-019-0545-2
DO - 10.1038/s41396-019-0545-2
M3 - Article
C2 - 31666657
AN - SCOPUS:85074722603
SN - 1751-7362
VL - 14
SP - 492
EP - 505
JO - ISME Journal
JF - ISME Journal
IS - 2
ER -