PAMACC News - A research team led by UvA plant biologists Harro Bouwmeester and Lemeng Dong has identified a – North-American - maize line that is resistant to Striga, according to a new study  published in the leading journal Science.

Over the next two years, Bouwmeester will test whether this new knowledge can be used to breed African maize varieties to make them resistant to witchweed.

According to the scientists, food security is a growing challenge, especially in light of climate change and increasing food needs around the world. However, a small plant with beautiful purple flowers presents yet another grave challenge to food security: Striga or witchweed. Although beautiful, this plant is called witchweed for a reason. Striga seeds lie dormant in the soil until their germination is triggered by strigolactones, specific plant hormones secreted into the soil by the roots of plants, including maize. After germination, Striga penetrates the root of the maize and drains nutrients and water, like a vampire, sometimes causing entire harvests to fail.

Discovery of resistance in maize

The research team found a new possible basis for resistance to Striga. Intriguingly, a North American corn line seems to provide the solution to the plague in Africa. In the lab, PhD student Changsheng Li analyzed the strigolactones of a whole set of different maize lines. The one North American line was found to secrete a different mixture of strigolactones into the soil than most of the other lines and was therefore less susceptible to Striga. 'Research into the mechanism behind this subsequently showed that one of the genes responsible for the biosynthesis of strigolactones in this maize line is less active,' explains Bouwmeester. ‘We now want to use that mechanism to introduce this Striga resistance into the maize that grows in Africa.’

Making African maize Striga-resistant

Over the next two years, Bouwmeester will use an ERC Proof of Concept grant to collaborate with researchers from the International Maize and Wheat Improvement Center (CIMMYT). In the lab and greenhouse at the Amsterdam Science Park and in Mexico, where CIMMYT is based, the researchers will use modern biotechnology to change the strigolactone composition in African maize lines. They will then test these lines together with farmers in Kenya to assess their sensitivity to Striga.