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Fusaric acid mediates the assembly of disease-suppressive rhizosphere microbiota via induced shifts in plant root exudates

Author

Listed:
  • Xue Jin

    (Northeast Agricultural University)

  • Huiting Jia

    (Northeast Agricultural University)

  • Lingyi Ran

    (Northeast Agricultural University)

  • Fengzhi Wu

    (Northeast Agricultural University)

  • Junjie Liu

    (Chinese Academy of Sciences)

  • Klaus Schlaeppi

    (University of Basel)

  • Francisco Dini-Andreote

    (The Pennsylvania State University
    The Pennsylvania State University)

  • Zhong Wei

    (Nanjing Agricultural University)

  • Xingang Zhou

    (Northeast Agricultural University)

Abstract

The plant health status is determined by the interplay of plant-pathogen-microbiota in the rhizosphere. Here, we investigate this tripartite system focusing on the pathogen Fusarium oxysporum f. sp. lycopersici (FOL) and tomato plants as a model system. First, we explore differences in tomato genotype resistance to FOL potentially associated with the differential recruitment of plant-protective rhizosphere taxa. Second, we show the production of fusaric acid by FOL to trigger systemic changes in the rhizosphere microbiota. Specifically, we show this molecule to have opposite effects on the recruitment of rhizosphere disease-suppressive taxa in the resistant and susceptible genotypes. Last, we elucidate that FOL and fusaric acid induce changes in the tomato root exudation with direct effects on the recruitment of specific disease-suppressive taxa. Our study unravels a mechanism mediating plant rhizosphere assembly and disease suppression by integrating plant physiological responses to microbial-mediated mechanisms in the rhizosphere.

Suggested Citation

  • Xue Jin & Huiting Jia & Lingyi Ran & Fengzhi Wu & Junjie Liu & Klaus Schlaeppi & Francisco Dini-Andreote & Zhong Wei & Xingang Zhou, 2024. "Fusaric acid mediates the assembly of disease-suppressive rhizosphere microbiota via induced shifts in plant root exudates," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49218-9
    DOI: 10.1038/s41467-024-49218-9
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    References listed on IDEAS

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    2. Gabriel Castrillo & Paulo José Pereira Lima Teixeira & Sur Herrera Paredes & Theresa F. Law & Laura de Lorenzo & Meghan E. Feltcher & Omri M. Finkel & Natalie W. Breakfield & Piotr Mieczkowski & Corbi, 2017. "Root microbiota drive direct integration of phosphate stress and immunity," Nature, Nature, vol. 543(7646), pages 513-518, March.
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