Abstract
Foxtail millet (Setaria italica) bran oil is rich in linoleic acid, which accounts for more than 60% of its lipids. Ethyl linoleate (ELA) is a commercially valuable compound with many positive health effects. Here, we optimized two ELA processing steps, urea complexation (UC) and molecular distillation (MD), using single-factor and response surface analyses. We aimed to obtain a highly concentrated ELA at levels that are permitted by current regulations. We identified the optimal conditions as follows: 95% ethanol-to-urea ratio = 15:1 (w/w), urea-to-fatty acid ratio = 2.5:1 (w/w), crystallization time = 15 h, and crystallization temperature = −6 °C. Under these optimal UC conditions, ELA concentration reached 45.06%. The optimal MD purification conditions were established as follows: distillation temperature = 145 °C and vacuum pressure = 1.0–5.0 × 10−2 mbar. Under these conditions, ELA purity increased to 60.45%. Together, UC and MD were effective in improving the total concentration of ELA in the final product. This work shows the best conditions for separating and purifying ELA from foxtail millet bran oil by UC and MD.
Highlights
Foxtail millet (Setaria italica, abbreviated as FM) is one of the world’s oldest cultivated crops
Our results suggest that FM bran (FMB) oil is a good source of pharmaceutical Ethyl linoleate (ELA)
We showed that response surface experiments can be used for regression analysis and parameter optimization of the urea complexation (UC) process of foxtail millet bran oil
Summary
Foxtail millet (Setaria italica, abbreviated as FM) is one of the world’s oldest cultivated crops It originated from China and, because of its excellent drought resistance, high tolerance to poor soil, and good nutrient value, it is planted in India, Japan, Australia, North Africa, and South America [1]. FM bran (FMB) is a by-product of FM processing and is produced after shelling [3]. It is rich in lipids, starch, proteins, vitamins, and minerals [4,5] and it is typically not fully utilized. FMB utilization in this manner would effectively use an agricultural waste product and might enrich farmers and improve their standard of living. FMB may be a good source of linoleic acid, a potentially bioactive component
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