Purification of Ethyl Docosahexaenoate through Selective Alcoholysis with Immobilized Rhizomucor miehei Lipase

Journal of Japan Oil Chemists Society Pub Date : 2000-08-20 DOI:10.5650/JOS1996.49.793

Kazuaki Maruyama, Y. Shimada, T. Baba, T. Ooguri, A. Sugihara, Y. Tominaga, S. Moriyama

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引用次数: 7

Abstract

Ethyl docosahexaenoate (E-DHA) was efficiently enriched by selective alcoholysis of ethyl esters from tuna oil with lauryl alcohol (LauOH) using immobilized Rhizomucor miehei lipase. We thus attempted the development of an enzymatic process applicable to the industrial purification of E-DHA. The amount of LauOH was found the most important factor in the alcoholysis, and a larger amount of LauOH was effective for the enrichment of E-DHA. In this study, the amount was fixed at 7 molar equivalents for ethyl esters originating from tuna oil (E-DHA55; E-DHA content, 54.6mol%). A substrate mixture of E-DHA55/LauOH was introduced into a column packed with 8.0g of immobilized Rhizomucor lipase (22×63mm) at 30°C and a flow rate of 10mL/h (8.3g/h). E-DHA content increased to 87mol% with 58% alcoholysis. Even after 150 d, E-DHA content increased to 85mol%, although alcoholysis decreased to 48%. The half life of the lipase was determined as 150 d based on decrease in alcoholysis in the batch reaction. The reaction mixture flowing from the column was applied to film distillation, and unreacted ethyl esters were recovered in 82% yield. The ethyl ester fraction was contaminated with 2.4wt% LauOH and 6.3wt% lauryl esters, and lauryl esters could be completely removed by urea adduct fractionation. Through a series of purifications, E-DHA content was raised to 88wt% in 52% yield of the initial content in E-DHA55.

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固定化米黑根霉脂肪酶选择性醇解纯化二十二碳六酸乙酯

采用固定化根霉米黑脂肪酶，用月桂醇选择性醇解金枪鱼油乙酯，高效富集二十二碳六烯酸乙酯(E-DHA)。因此，我们试图开发一种适用于工业纯化E-DHA的酶的过程。发现LauOH的量是醇解过程中最重要的因素，较大的LauOH量有利于E-DHA的富集。在这项研究中，来自金枪鱼油的乙酯的量固定在7摩尔当量(E-DHA55;E-DHA含量54.6mol%)。将E-DHA55/LauOH的底物混合物，在30°C下，以10mL/h (8.3g/h)的流速，注入装有8.0g固定化Rhizomucor脂肪酶(22×63mm)的柱中。当醇解58%时，E-DHA含量增加至87mol%。即使在150 d后，E-DHA含量也增加到85mol%，尽管醇解率下降到48%。根据间歇反应中醇解的减少，确定脂肪酶的半衰期为150 d。从塔中流出的反应混合物用于膜蒸馏，未反应的乙酯以82%的收率回收。乙基酯馏分被2.4wt%的LauOH和6.3wt%的十二烷基酯污染，通过尿素加合物分馏可以完全去除十二烷基酯。通过一系列的纯化，E-DHA的含量提高到88wt%，收率为E-DHA55初始含量的52%。

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Journal of Japan Oil Chemists Society

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