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Parasite Provides Clues To Evolution Of Plant Diseases

Parasite Provides Clues To Evolution Of Plant Diseases

Parasite Provides Clues To Evolution Of Plant Diseases

Parasite Provides Clues To Evolution Of Plant Diseases

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How generalist parasites with wide host ranges evolve is a central question in parasite evolution. Parasites adapt in response to their host organisms' defences and in many cases this adaptation is specific to a particular host species. 

A. candida is a plant pathogen and could be easily confused with a fungus despite being very distantly related to fungi. The plant parasite can grow on diverse plants of the cabbage family, including vegetable crops and common weeds. 

The project (“Albugon”) was led by Prof Jonathan Jones at The Sainsbury Lab (TSL), Norwich, who won a five-year Advanced Investigator Grant from the European Research Council to fund the work.  A team of scientists at TSL, including Mark McMullan, now of The Genome Analysis Centre (TGAC),  genome sequencing to identify the important differences between A. candida races that infect different weeds and crops. 

The research showed that isolates of the parasite that infect different plants carry distinct gene repertoires, but nevertheless carry shared segments of the genome, indicating recent and continuing gene exchange between races that grow on different hosts. This suggests parasite races that infect crop species may be regularly receiving infusions of genetic variation from races that infect weeds.

“We were puzzled that distinct races of Albugo show evidence of genetic exchange, even though they grow on different host species” said Prof. Jonathan Jones. “However, we then realised that this could be explained by the extraordinary capacity of Albugo to shut down host defences. Put simply, we believe Albugo suppresses immunity of host plants so that it can have sex”.

“Interactions and evolution of plants and microbes is fundamental to agriculture and global food security. Due to the advances in genomics, it is now feasible to look at very many genomes within a wild species,” said Dr Mark McMullan, Population & Evolutionary Biologist in the Plant & Microbial Genomics Group at TGAC and first author of the study. 

“This has opened the door for scientists to conduct their genome analyses using population genetic techniques, a combination of advanced methods that began development long before the discovery of the structure of DNA. These methods will further advance our understanding of plant pathogen evolution.”