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在疏水性载体上吸附的Thermomyces Lanuginosus 脂肪酶的生物催化剂工程:调节酶性质以用于无溶剂体系中油的乙醇解。

Biocatalyst engineering of Thermomyces Lanuginosus lipase adsorbed on hydrophobic supports: Modulation of enzyme properties for ethanolysis of oil in solvent-free systems.

机构信息

Department of Biocatalysis, Institute of Catalysis and Petrochemistry (ICP) CSIC, Campus UAM, Cantoblanco, 28049, Madrid, Spain; Federal University of Sao Carlos, Sao Carlos, SP, Brazil.

Pharmacy and Biotechnology Department, School of Biomedical Sciences, Universidad Europea de Madrid, Madrid, Spain.

出版信息

J Biotechnol. 2019 Jan 10;289:126-134. doi: 10.1016/j.jbiotec.2018.11.014. Epub 2018 Nov 19.

DOI:10.1016/j.jbiotec.2018.11.014
PMID:30465792
Abstract

Different immobilized biocatalysts of Thermomyces lanuginosus lipase (TLL) exhibited different properties for the ethanolysis of high oleic sunflower oil in solvent-free systems. TLL immobilized by interfacial adsorption on octadecyl (C-18) supports lost its 1,3-regioselectivity and produced more than 99% of ethyl esters. This reaction was influenced by mass-transfer limitations. TLL adsorbed on macroporous C-18 supports (616 Å of pore diameter) was 10-fold more active than TLL adsorbed on mesoporous supports (100-200 Å of pore diameter) in solvent-free systems. Both derivatives exhibited similar activity when working in hexane in the absence of diffusional limitations. In addition, TLL adsorbed on macroporous Purolite C-18 was 5-fold more stable than TLL adsorbed on mesoporous Sepabeads C-18. The stability of the best biocatalyst was 20-fold lower in anhydrous oil than in anhydrous hexane. Mild PEGylation of immobilized TLL greatly increased its stability in anhydrous hexane at 40 °C, fully preserving the activity after 20 days. In anhydrous oil at 40 °C, PEGylated TLL-Purolite C-18 retained 65% of its initial activity after six days compared to 10% of the activity retained by the unmodified biocatalyst. Macroporous and highly hydrophobic supports (e.g., Purolite C-18) seem to be very useful to prepare optimal immobilized biocatalysts for ethanolysis of oils by TLL in solvent-free systems.

摘要

不同固定化Thermomyces lanuginosus 脂肪酶(TLL)表现出不同的性质,用于无溶剂体系中高油酸葵花籽油的乙醇解。通过界面吸附固定在十八烷基(C-18)载体上的 TLL 失去了 1,3-区域选择性,产生了超过 99%的乙酯。这种反应受到传质限制的影响。在无溶剂体系中,吸附在大孔 C-18 载体(孔径 616Å)上的 TLL 比吸附在介孔载体(孔径 100-200Å)上的 TLL 活性高 10 倍。两种衍生物在无扩散限制的情况下在正己烷中工作时表现出相似的活性。此外,吸附在大孔 Purolite C-18 上的 TLL 比吸附在介孔 Sepabeads C-18 上的 TLL 稳定 5 倍。在无水油中,最佳生物催化剂的稳定性比无水己烷中的稳定性低 20 倍。固定化 TLL 的温和聚乙二醇化极大地提高了其在 40°C 无水己烷中的稳定性,在 20 天后完全保留了活性。在 40°C 的无水油中,PEGylated TLL-Purolite C-18 在六天内保留了其初始活性的 65%,而未经修饰的生物催化剂保留了 10%的活性。大孔和高度疏水性载体(例如,Purolite C-18)似乎非常有用,可以在无溶剂体系中制备用于 TLL 催化油的乙醇解的最佳固定化生物催化剂。

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