Saskatoon, Saskatchewan, Canada
January 10, 2020
Global Institute for Food Security (GIFS) researchers at the University of Saskatchewan (USask) are members of an international consortium of key academic and global seed company leaders from Canada, the United States, Europe and Israel that has successfully sequenced the genome for canola.
The canola consortium is led by Dr. Isobel Parkin (PhD), research scientist from Agriculture and Agri-Food Canada (AAFC), and Dr. Andrew Sharpe (PhD), director of genomics and bioinformatics from GIFS at USask.
Global Institute for Food Security researcher Dr. Andrew Sharpe (PhD) with the PromethION high throughput DNA and RNA sequencing device at the University of Saskatchewan. (Photo: Dave Stobbe)
The genome research is essential to enhancing the quality and yield of the major oil crop. The project reached a key milestone in completing the full assembly and mapping the genomes of 10 diverse canola varieties, cultivated in Canada, U.S. and Europe. The genome assembly and complete mapping was done using Israeli-based genomic big data company NRGene’s DeNovoMAGIC technology.
Canola is a major vegetable oil crop farmed on approximately 35 million acres around the world. Canola oil is considered a high-quality vegetable oil and is commonly used in food production and diverse industrial applications, including biofuel. Increasing the productivity of the plant will expand its use for a range of applications, replacing lower quality vegetable oils and diesel fuels.
“Having top quality genomes of rapeseed/canola is crucial for identifying the genes responsible for key commercial traits,” said Parkin. “This will be a foundational resource for basic research that’s required to increase yield and nutritional values of rapeseed/canola.”
In the upcoming weeks, the project will also include the comparative mapping of the full genome sequences into a pangenome. Subsequently, the genomes of other varieties will be incorporated to reveal the broad genetic diversity of canola that is grown around the world. This work will be done using NRGene’s GenoMAGIC big-data toolkit, that is already in use commercially for other key crops such as maize, soybean, cotton, tomato and wheat.
“This was truly a combined effort, made possible with the support and contributions from various parties,” said Sharpe. “The results will advance breeding for rapeseed and canola, benefiting research, industry, producers and consumers. This progress also has immense economic value for Canada, which is one of the world’s leading producers and exporters of canola.”
“The broad genomic database we produced provides the fundamental infrastructure needed by every breeding program,” said Dr. Gil Ronen, chief executive officer of NRGene. “Sharing funding resources between multiple commercial and academic entities enables us to build the largest global database of rapeseed/canola to be shared among consortium members and revealing strategic paths in the breeding of elite seeds.”
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