Peanut <scp><i>FAD2</i></scp> Genotype and Growing Location Interactions Significantly Affect the Level of Oleic Acid in Seeds
Brandon Tonnis, Ming Li Wang, Xianran Li, Jianping Wang, Naveen Puppala, Shyam Tallury, Jianming Yu
Abstract
Abstract The level of oleic acid is an important parameter in determining seed nutritional quality and oil stability. The level of oleic acid in peanut is genetically controlled by a pair of fatty acid desaturase genes ( FAD2A and FAD2B ), but the environmental conditions of the production sites can also have a significant effect. To investigate the effect of gene and environment interaction, 45 accessions were grown at three locations for 2 years. Environmental data were collected; individual plants were genotyped with functional SNP markers from FAD2A and FAD2B ; and seed level of oleic acid was determined by gas chromatography. Three FAD2A / FAD2B genotypes (448G/no insertion 442A, 448A/no insertion 442A, and 448A/insertion 442A) were identified and designated as G/W, A/W, and A/A, respectively. A/A genotype averaged the highest level of oleic acid (80.0%), followed by A/W (56.0%), and then G/W (40.7%). Analysis of gene and environment interaction revealed that oleic acid phenotype plasticity could be explained by the interaction of FAD2 genotype and photothermal time, which quantified environmental conditions. The A/W genotype was the most sensitive to photothermal time changes. The oleic acid plasticity revealed in this study would be useful for breeders, farmers, and product processors.