Journal
JOURNAL OF THE AMERICAN OIL CHEMISTS SOCIETY
Volume 81, Issue 4, Pages 339-345Publisher
WILEY
DOI: 10.1007/s11746-004-0904-9
Keywords
Candida rugosa lipase; esterification; methyl esterification; short-path distillation; phytosterol; soybean oil deodorizer distillate; tocopherol
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The purification of tocopherols and phytosterols (referred to as sterols) from soybean oil deodorizer distillate (SODD) was attempted. Tocopherols and sterols in the SODD were first recovered by short-path distillation, which was named SODD tocopherol/sterol concentrate (SODDTSC). The SODDTSC contained MAG, DAG, FFA, and unidentified hydrocarbons in addition to the two substances of interest. It was then treated with Candida rugosa lipase to convert sterols to FA steryl esters, acylglycerols to FFA, and FFA to FAME. Methanol (MeOH), however, inhibited esterification of the sterols. Hence, a two-step in situ reaction was conducted: SODDTSC was stirred with 20 wt% water and 200 U/g mixture of C. rugosa lipase at 30degreesC, and 2 moles of MeOH per mole of FFA was added to the reaction mixture after 16 h. The lipase treatment for 40 h in total achieved 80% conversion of the initial sterols to FA steryl esters, complete hydrolysis of the acylglycerols, and a 78% decrease in the initial FFA content by methyl esterification. Tocopherols did not change throughout the process. To enhance the degree of steryl and methyl esterification, the reaction products, FA steryl esters and FAME, were removed by short-path distillation, and the resulting fraction containing tocopherols, sterols, and FFA was treated with the lipase again. Distillation of the reaction mixture purified tocopherols to 76.4% (recovery, 89.6%) and sterols to 97.2% as FA steryl esters (recovery, 86.3%).
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