It was like putting together a jigsaw puzzle for which all the pieces are identical, but with only one solution.
Iowa State University researchers overcame the quirks of the soybean cyst nematode’s DNA to sequence its genome, paving the way for better management practices to combat the No. 1 pest that threatens Iowa soybeans. The research was published recently in the peer-reviewed journal BMC Genomics.
Soybean cyst nematodes are parasitic roundworms that infect the roots of soybeans and can devastate yields in infected fields. Nematode populations build up in fields and stay for years, meaning infested acres become a perennial management concern for farmers.
Crop breeders have studied genes in soybeans that can boost their resistance to the nematodes, but sequencing the nematode genome fills in important gaps in science’s understanding of these pests that had remained stubbornly blank for years, said Thomas Baum, senior author of the study and Charles F. Curtiss Distinguished Professor and chair of plant pathology and microbiology.
“Researchers look at resistance on the soybean side of the equation, but it’s been difficult getting comprehensive work done on the biology and virulence of the pest because a workable genome had not been available,” Baum said. “Our work is a giant step in enabling novel research.”
The genetics of the soybean cyst nematode present challenges that kept scientists from assembling the full genome for years. The research team sequenced the genome first by sequencing smaller portions and then piecing those portions together into the full genome. About a third of the nematode’s 29,769 genes are repetitive, meaning many of the genes come in multiple copies, said Rick Masonbrink, an associate scientist in the ISU Office of Biotechnology and lead author of the study. The repetitive DNA greatly complicated the sequencing and assembly process, Masonbrink said.
Andrew Severin, a co-author of the study and manager of the ISU Genome Informatics Facility, likened it to a jigsaw puzzle of a blue sky in which all the pieces are identical in shape and color. It’s difficult to figure out how all those repetitive pieces fit together, Severin said. But a method known as long-read sequencing technology made it possible to assemble a high-quality genome.
Now, the fully assembled genome could lead to the development of better pest management strategies, Baum said. Having a fully assembled genome on hand will make it possible for scientists to compare different nematode populations at the gene level.
When the nematodes infect a soybean plant, they battle with the soybean’s natural defenses. The genome can help plant breeders understand how the nematodes manage to override the soybean’s defenses.
“This helps us to understand the basic pathology of the worm,” Baum said. “Now we can see both sides of the arms race, both the offense and defense.”
Further enhancing the utility of the genome, the ISU team has made their research available in an open online database for other scientists to access.
Funding for the research was provided by the North Central Soybean Research Program and the National Science Foundation I/UCRC Center for Arthropod Management Technologies and its industry partners.
Parijat Juvale, an assistant scientist in plant pathology and microbiology; Tom Maier, an assistant scientist in plant pathology and microbiology; and Arum Seetharam, an associate scientist in the Office of Biotechnology; are also co-authors of the study. Scientists at Agriculture and Agri-Food Canada; the Joint Genome Institute in Walnut Creek, California; the Worcester Polytechnic Institute; the University of Missouri; the University of Cambridge; and the University of Illinois also contributed to the project.
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