3rd Global Congress on
Plant Biology and Biotechnology
- March 11-13, 2019
Dr. Marta Valdez-Melara obtained a Doctorate in natural sciences from the University of Paris VI, France, in 1986. Her area of specialization is genetics, plant biotechnology, and biosafety. She Is a professor at the School of Biology of the University of Costa Rica since 1990. Also, she was the founder and first Director of the National Center for Biotechnological Innovations in Costa Rica and is a corresponding member of the French Academy of Agriculture. She has received two decorations: "National Order of French Merit" in 2014 and "Order of the Liberator of Slaves José Simeón Cañas" of the Government of El Salvador in 2015.
Abiotic factors, such as drought, salinity, and high temperatures are limiting agricultural production. Also, under the pressure of rapid population growth, climate change and evolution of agricultural pests and diseases, new genome-editing technologies are the next green revolution and provide new genetic variations to improve yield, quality, and resistance to biotic and abiotic factors in cultivated plants. In this sense, our study focuses on the modification of the active site of the enzyme trehalase using CRISPR/Cas 9 to confer tolerance/resistance to salinity in rice. As a result, a protocol for genetic transformation of rice embryogenic calli using A. tumefaciens was established. Four plasmids with the RNAg for the trehalase gene (Os10g0521000) were developed. However, the diverse applications of modern biotechnology arouse enthusiasm and mistrust in society, so it has both advocates and adversaries. These concerns could impact on national and international policies. In this sense, the public perception of society must be taken into account if it is considered that the new genome-editing strategies can contribute to food security by introducing new traits in the crops. For this reason, the present study aims to investigate the role of collective communication in shaping a certain perception towards new genome-editing strategies in plants, as well as to analyze the perception and attitude of Costa Rican society to new strategies of editing genomes in plants. Also, in these new genetic improvement strategies, governments should consider their regulatory status and establish appropriate regulations if necessary. That is why the present research is proposed to analyze the regulatory framework of Latin American countries around the new genome-editing strategies in plants. This would allow the strengthening of regulatory frameworks and science-based decision-making to foster innovation, research, and trade in products derived from new genome-editing technologies.