Fhb1 gene poised to control rot in several other horticulture crops, scaling back billions in losses
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College Park, MD -- A major breakthrough in the cloning of a resistance gene to eliminate wheat scab -- a widespread disease responsible for drastic reductions in crop yield as well as millions of dollars in annual losses worldwide -- has been achieved by Nidhi Rawat, an assistant professor within the University of Maryland’s College of Agriculture and Natural Resources. This discovery has broad implications for the future as a promising source of resistance to not only wheat scab, but a variety of similar host plants affected by the fungal pathogen known as Fusarium graminearum. Ultimately, once the nature of gene action is known, the findings can be applied to control other Fusarium species which causes rot in cucurbit, tomato and potato to name a few.
Fusarium graminearum produces a toxin that makes the infected crop unfit for human and animal consumption. James Anderson, a professor of wheat breeding and genetics at the University of Minnesota, said there are frequent epidemics of the disease reported in the United States, Canada, Europe, Asia and South America.
Historically, wheat scab -- otherwise known as Fusarium Head Blight -- has been a very difficult problem to solve. 20 years of research that includes input from scientists in China and several American Universities has been slow to produce results, with resistance only found in a select group of local Chinese plants. Until now, nothing was known about the Fhb1 gene and its ability to provide broad-spectrum resistance. Rawat is part of a multi-University team, with researchers from Kansas State University, University of Minnesota, and Washington State University, that used sophisticated wheat genome sequencing techniques to isolate the gene. Now that the DNA source of the resistance is known, processes that would take years to replicate can be done in much quicker fashion in a diagnostics lab.
“After quite a long research process into Fusarium Head Blight, we are thrilled to uncover a solution to help the international farming community combat this devastating disease,” says Dr. Rawat. “Fhb1 is very special, as only a few broad-spectrum resistance genes have been cloned so far that provide multi-pathogen resistance. The durability and applicability of Fhb1 puts it in a category all to itself and we must learn how to harness it appropriately.”
Moving forward, Rawat and her colleagues will work towards utilizing Fhb1 for solving a multitude of diseases caused by the pathogen. Research will involve optimizing the transfer of this resistance to other crops infected by Fusarium species through breeding, transgenic, cis-genic, and genome editing techniques.