Maintenance of divergent lineages of the Rice Blast Fungus Pyricularia oryzae through niche separation, loss of sex and post-mating genetic incompatibilities

Many species of fungal plant pathogens coexist as multiple lineages on the same host, but the factors underlying the origin and maintenance of population structure remain largely unknown. The rice blast fungus Pyricularia oryzae is a widespread model plant pathogen displaying population subdivision....

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Bibliographic Details
Published in:PLoS pathogens 2022-07, Vol.18 (7), p.e1010687-e1010687
Main Authors: Thierry, Maud, Charriat, Florian, Milazzo, Joëlle, Adreit, Henri, Ravel, Sébastien, Cros-Arteil, Sandrine, borron, Sonia, Sella, Violaine, Kroj, Thomas, Ioos, Renaud, Fournier, Elisabeth, Tharreau, Didier, Gladieux, Pierre
Format: Article
Language:English
Subjects:
Agricultural production
Analysis
Animal reproduction
Biology and Life Sciences
Care and treatment
Diagnosis
Disease
Disease transmission
Divergence
Domestication
Earth Sciences
Ecology and Environmental Sciences
Environmental conditions
Females
Fungi
Gene flow
Genes
Genetic diversity
Genetic polymorphisms
Genomes
Genotyping
Host range
Life Sciences
Maintenance
Mating
Medicine and Health Sciences
Niches
Nucleotides
Pathogenicity
Pathogens
Phytopathology and phytopharmacy
Polymorphism
Population
Population structure
Population studies
Prevention
Pyricularia oryzae
Reproductive isolation
Research and Analysis Methods
Rice
Rice blast
Rice blast disease
Risk factors
Separation
Single-nucleotide polymorphism
Sterility
Subgroups
Vegetal Biology
Virulence
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Summary:Many species of fungal plant pathogens coexist as multiple lineages on the same host, but the factors underlying the origin and maintenance of population structure remain largely unknown. The rice blast fungus Pyricularia oryzae is a widespread model plant pathogen displaying population subdivision. However, most studies of natural variation in P. oryzae have been limited in genomic or geographic resolution, and host adaptation is the only factor that has been investigated extensively as a contributor to population subdivision. In an effort to complement previous studies, we analyzed genetic and phenotypic diversity in isolates of the rice blast fungus covering a broad geographical range. Using single-nucleotide polymorphism genotyping data for 886 isolates sampled from 152 sites in 51 countries, we showed that population subdivision of P. oryzae in one recombining and three clonal lineages with broad distributions persisted with deeper sampling. We also extended previous findings by showing further population subdivision of the recombining lineage into one international and three Asian clusters, and by providing evidence that the three clonal lineages of P. oryzae were found in areas with different prevailing environmental conditions, indicating niche separation. Pathogenicity tests and bioinformatic analyses using an extended set of isolates and rice varieties indicated that partial specialization to rice subgroups contributed to niche separation between lineages, and differences in repertoires of putative virulence effectors were consistent with differences in host range. Experimental crosses revealed that female sterility and early post-mating genetic incompatibilities acted as strong additional barriers to gene flow between clonal lineages. Our results demonstrate that the spread of a fungal pathogen across heterogeneous habitats and divergent populations of a crop species can lead to niche separation and reproductive isolation between distinct, widely distributed, lineages.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1010687