Soybean cyst nematode (SCN) does hundreds of millions of dollars' worth of damage each year. Matt Hudson and Brian Diers, crop sciences researchers at the University of Illinois and Andrew Bent at the University of Wisconsin, think they may have found a way to strengthen plant resistance. The research has just been published in Science Express.
Diers and Hudson, with researchers at Wisconsin and the University of Nebraska, have been studying an area on chromosome 18 called Rhg1 (Resistance to H. glycines) that is known to be the location of the main source of SCN resistance. Rhg1 disrupts the formation and maintenance of potential nematode-feeding sites on plant roots.
Most SCN-resistant soybeans in the Midwest are bred to contain Rhg1, but no one knew the DNA sequence of the gene that was responsible for the resistance. Diers wanted to find it.
"You could say it's a billion-dollar gene because it's in many varieties, it's widely used, and it's protecting varieties against these nematodes," he explained.
Using fine mapping, which is a technique that involves mapping genes in a very constrained area, Diers narrowed the search down to a few gene candidates. At that point, Hudson and Bent got involved in the analysis.
By then, the soybean genome sequence had been completed, greatly facilitating their research. "It became possible to know which genes were within the genetic intervals that people had historically used to confer traits like nematode resistance," Hudson said.
"When we had the genome sequenced, most people were shocked by how many genes there were in regions that people considered to be one gene," he continued. "By doing these fine-mapping experiments, you could get it down to a smaller number of possible genes."
There was, however, one big problem: the soybean that had been sequenced was not nematode-resistant.
"So, however many genes there were in the Rhg1 interval, we knew that the gene that actually makes the plants nematode-resistant wasn't there," Hudson said.