Obligate biotroph downy mildew consistently induces near-identical protective microbiomes in Arabidopsis thaliana

Pim Goossens; Jelle Spooren; Kim C.M. Baremans; Annemiek Andel; Dmitry Lapin; Nakisa Echobardo; Corné M.J. Pieterse; Guido Van den Ackerveken; Roeland L. Berendsen

doi:10.1038/s41564-023-01502-y

Obligate biotroph downy mildew consistently induces near-identical protective microbiomes in Arabidopsis thaliana

Pim Goossens
, Jelle Spooren
, Kim C.M. Baremans
, Annemiek Andel
, Dmitry Lapin
, Nakisa Echobardo
, Corné M.J. Pieterse
, Guido Van den Ackerveken
, Roeland L. Berendsen^*

^*Corresponding author for this work

Utrecht University

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Hyaloperonospora arabidopsidis (Hpa) is an obligately biotrophic downy mildew that is routinely cultured on Arabidopsis thaliana hosts that harbour complex microbiomes. We hypothesized that the culturing procedure proliferates Hpa-associated microbiota (HAM) in addition to the pathogen and exploited this model system to investigate which microorganisms consistently associate with Hpa. Using amplicon sequencing, we found nine bacterial sequence variants that are shared between at least three out of four Hpa cultures in the Netherlands and Germany and comprise 34% of the phyllosphere community of the infected plants. Whole-genome sequencing showed that representative HAM bacterial isolates from these distinct Hpa cultures are isogenic and that an additional seven published Hpa metagenomes contain numerous sequences of the HAM. Although we showed that HAM benefit from Hpa infection, HAM negatively affect Hpa spore formation. Moreover, we show that pathogen-infected plants can selectively recruit HAM to both their roots and shoots and form a soil-borne infection-associated microbiome that helps resist the pathogen. Understanding the mechanisms by which infection-associated microbiomes are formed might enable breeding of crop varieties that select for protective microbiomes.

Original language	English
Pages (from-to)	2349-2364
Number of pages	16
Journal	Nature Microbiology
Volume	8
Issue number	12
Early online date	16 Nov 2023
DOIs	https://doi.org/10.1038/s41564-023-01502-y
Publication status	Published - Dec 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s), under exclusive licence to Springer Nature Limited.

Funding

This study was sponsored by the TopSector Horticulture and Starting Materials (TKI grant number 1605-106), the Dutch Research Council (NWO) through the Gravitation programme MiCRop (grant number 024.004.014) and the XL programme ‘Unwiring beneficial functions and regulatory networks in the plant endosphere’ (grant number OCENW.GROOT.2019.063). The TKI project was carried out in collaboration with four industrial partners; DSM, Enza Zaden, Pop Vriend Seeds and RijkZwaan Breeding B.V. We thank J. Parker for providing Col-0 RPP5 and Ler rpp5 Arabidopsis seeds, P. Bakker and R. de Jonge for valuable input on experimental designs and bioinformatic approaches, and J. Elberse, D. Duijker, L. Pronk, C. Molina Ruiz, M. Alderkamp, X. Pan, L. Wagenaar and T. Tarrant for excellent technical assistance.

Funders	Funder number
TopSector Horticulture and Starting Materials
Nederlandse Organisatie voor Wetenschappelijk Onderzoek	024.004.014, OCENW.GROOT.2019.063
Topconsortium voor Kennis en Innovatie	1605-106

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10.1038/s41564-023-01502-y

s41564-023-01502-yFinal published version, 6.46 MBLicence: Taverne

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title = "Obligate biotroph downy mildew consistently induces near-identical protective microbiomes in Arabidopsis thaliana",

abstract = "Hyaloperonospora arabidopsidis (Hpa) is an obligately biotrophic downy mildew that is routinely cultured on Arabidopsis thaliana hosts that harbour complex microbiomes. We hypothesized that the culturing procedure proliferates Hpa-associated microbiota (HAM) in addition to the pathogen and exploited this model system to investigate which microorganisms consistently associate with Hpa. Using amplicon sequencing, we found nine bacterial sequence variants that are shared between at least three out of four Hpa cultures in the Netherlands and Germany and comprise 34\% of the phyllosphere community of the infected plants. Whole-genome sequencing showed that representative HAM bacterial isolates from these distinct Hpa cultures are isogenic and that an additional seven published Hpa metagenomes contain numerous sequences of the HAM. Although we showed that HAM benefit from Hpa infection, HAM negatively affect Hpa spore formation. Moreover, we show that pathogen-infected plants can selectively recruit HAM to both their roots and shoots and form a soil-borne infection-associated microbiome that helps resist the pathogen. Understanding the mechanisms by which infection-associated microbiomes are formed might enable breeding of crop varieties that select for protective microbiomes.",

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AU - Andel, Annemiek

AU - Lapin, Dmitry

AU - Echobardo, Nakisa

AU - Pieterse, Corné M.J.

AU - Van den Ackerveken, Guido

AU - Berendsen, Roeland L.

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AB - Hyaloperonospora arabidopsidis (Hpa) is an obligately biotrophic downy mildew that is routinely cultured on Arabidopsis thaliana hosts that harbour complex microbiomes. We hypothesized that the culturing procedure proliferates Hpa-associated microbiota (HAM) in addition to the pathogen and exploited this model system to investigate which microorganisms consistently associate with Hpa. Using amplicon sequencing, we found nine bacterial sequence variants that are shared between at least three out of four Hpa cultures in the Netherlands and Germany and comprise 34% of the phyllosphere community of the infected plants. Whole-genome sequencing showed that representative HAM bacterial isolates from these distinct Hpa cultures are isogenic and that an additional seven published Hpa metagenomes contain numerous sequences of the HAM. Although we showed that HAM benefit from Hpa infection, HAM negatively affect Hpa spore formation. Moreover, we show that pathogen-infected plants can selectively recruit HAM to both their roots and shoots and form a soil-borne infection-associated microbiome that helps resist the pathogen. Understanding the mechanisms by which infection-associated microbiomes are formed might enable breeding of crop varieties that select for protective microbiomes.

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Obligate biotroph downy mildew consistently induces near-identical protective microbiomes in Arabidopsis thaliana

Abstract

Bibliographical note

Funding

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