KAUST researchers are working to improve gene editing tools, specifically CRISPR/Cas9, for crop bioengineering to address food security challenges. Magdy Mahfouz's lab is developing a germline engineering platform to produce gene-edited plants without foreign DNA and bypass time-consuming tissue culture. A recent European court decision classifies CRISPR/Cas9 crops as GMOs, facing stringent regulations, contrasting with the U.S. where CRISPR-edited mushrooms are already available. Why it matters: Advances in gene editing at KAUST could significantly enhance crop yields and stress tolerance in the region, but regulatory hurdles remain a key challenge for deployment.
KAUST plant scientists are advocating for the deployment of new plant breeding technologies, including gene editing, to enhance global food security. Researchers Mark Tester and Magdy Mahfouz highlight these methods' potential to improve crops by minimizing crop life cycle for research on breeding, selection, and fixing of useful genes. They argue these technologies offer alternatives to genetically modified crops, potentially lowering regulatory costs and increasing seed affordability for farmers in developing countries. Why it matters: These advancements, coupled with regional seed-sharing initiatives, could significantly boost food production and accessibility in less-developed countries in the Middle East and globally.
Dr. John Bedbrook of DiCE Molecules LLC spoke at KAUST about the challenges of feeding a growing population with increasingly stressed arable land. He noted the increasing demand for meat in emerging economies exacerbates the problem. Bedbrook emphasized the role of genetics and hybridization in improving crop yields and quality to address food security. Why it matters: Investments in agricultural biotechnology are crucial for the GCC region to enhance food security and reduce reliance on imports amid changing climate conditions.
A KAUST-led research team sequenced the first high-quality quinoa genome. This achievement may enhance our ability to feed the world's growing population. The research was conducted at King Abdullah University of Science and Technology. Why it matters: This breakthrough in genomics could lead to more resilient and nutritious crops, contributing to global food security efforts.
KAUST research scientist Dr. Maged Saad is working on unconventional methods for global food security within the Desert Agriculture Initiative. His research involves using selected strains of bacteria to increase salt tolerance and crop productivity in desert plants. Dr. Saad aims to convert this technology into a marketable product by securing intellectual property rights, testing prototypes with Saudi farmers, and establishing a startup. Why it matters: This research aligns with Saudi Arabia's Vision 2030 goals to enhance local agricultural production and promote sustainable solutions for food security in arid environments.