New tool to detect blackleg disease in potato has widespread application
Credit: The American Phytopathological Society
Potatoes are important. They rank fourth among the world’s staple crops. In the United States, they are grown commercially in 30 states and valued at $4 billion annually. Potatoes are also susceptible to 160 different fungal, bacterial, and viral diseases, such as blackleg and soft rot diseases, which are caused by the bacterium Dickeya dianthicola.
In 2015, an aggressive outbreak of this bacterium led to losses of greater than $40 million. In part, this outbreak occurred because of the inability to detect this specific bacterium when seed potatoes were being screened for pathogens using DNA-based tests.
To prevent an outbreak of this magnitude from occurring again, scientists developed a user-friendly online tool called Uniqprimer, which quickly and automatically designs species-specific DNA tags (also known as primers) for detecting pathogens using DNA testing.
To test the Uniqprimer, the scientists screened 116 field samples for the presence of D. dianthicola and found it in samples from nine different states. The Uniqprimer was able to detect the bacterium when other more commonly used tests did not.
While Uniqprimer was developed with blackleg disease and potatoes in mind, it can be applied to any pathogen and in any geographic area. It can also be used by anyone with an internet connection, even those with no background in bioinformatics.
“We hope Uniqprimer and the tests it designed will aid in the accurate detection of D. dianthicola and many other pathogens,” said lead author Shaista Karim. “Accurate pathogen detection is the first step for management of a disease, which helps in reducing the losses in the potato industry and informing the farmers in a timely manner to better aid on-farm decision making.”
Learn more about this new tool, and how it was developed, in “Development of the Automated Primer Design Workflow Uniqprimer and Diagnostic Primers for the Broad-Host-Range Plant Pathogen Dickeya dianthicola” published in the November issue of Plant Disease.
Ashley Bergman Carlin
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