应用溶剂工程通过混合响应面法优化脂肪酶催化的1,3-二甘油酰基甘油

Application of solvent engineering to optimize lipase-catalyzed 1,3-diglyacylcerols by mixture response surface methodology.

作者信息

Liao Hui-Fen, Tsai Wei-Chuan, Chang Shu-Wei, Shieh Chwen-Jen

机构信息

Department of Medical Research, Mackay Memorial Hospital, 45 Minsheng Road, Tamshui, Taipei County, 251, Taiwan.

出版信息

Biotechnol Lett. 2003 Nov;25(21):1857-61. doi: 10.1023/a:1026237829284.

DOI:10.1023/a:1026237829284

PMID:14677712

Abstract

1,3-Diacylglycerol (DAG) has been introduced in Japan as a cooking oil under the trade name of Econa to reduce body fat accumulation. Solvent engineering was applied to determine the optimum solvent mixtures for the lipase-catalyzed synthesis of 1,3-DAG by mixture response surface methodology. n-Hexane was required to maintain the lipase activity and the product selectivity could be adjusted by changing the hydrophobicity of reaction medium. The optimum yield (approximately 40%) of 1,3-DAG synthesis was obtained with n-hexane/octane (1:1, v/v).

摘要

1,3-二酰基甘油（DAG）在日本已作为一种食用油以商品名Econa推出，用于减少体内脂肪堆积。采用溶剂工程通过混合响应面法确定脂肪酶催化合成1,3-二酰基甘油的最佳溶剂混合物。需要正己烷来维持脂肪酶活性，并且可以通过改变反应介质的疏水性来调节产物选择性。使用正己烷/辛烷（1:1，v/v）可获得1,3-二酰基甘油合成的最佳产率（约40%）。

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应用溶剂工程通过混合响应面法优化脂肪酶催化的1,3-二甘油酰基甘油

Application of solvent engineering to optimize lipase-catalyzed 1,3-diglyacylcerols by mixture response surface methodology.

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