一种将蔗糖异构酶固定在ε-聚-L-赖氨酸修饰的介孔二氧化钛上的创新方法。

An innovative method for immobilizing sucrose isomerase on ε-poly-L-lysine modified mesoporous TiO2.

作者信息

Wu Lingtian, Liu Yi, Chi Bo, Xu Zheng, Feng Xiaohai, Li Sha, Xu Hong

机构信息

State Key Laboratory of Materials-Oriented Chemical Engineering, College of Food Science and Light Industry, Nanjing Tech University, 30 Puzhu South Road, Nanjing 211816, China.

出版信息

Food Chem. 2015 Nov 15;187:182-8. doi: 10.1016/j.foodchem.2015.04.072. Epub 2015 Apr 23.

DOI:10.1016/j.foodchem.2015.04.072

PMID:25977014

Abstract

Sucrose isomerase (SIase) is the key enzyme in the enzymatic synthesis of isomaltulose. Mesoporous titanium dioxide (M-TiO2) and ε-poly-L-lysine-functionalized M-TiO2 (EPL-M-TiO2) were prepared as carriers for immobilizing SIase. SIase was effectively immobilized on EPL-M-TiO2 (SI-EPL-M-TiO2) with an enzyme activity of 39.41 U/g, and the enzymatic activity recovery rate up to 93.26%. The optimal pH and temperature of immobilized SIase were 6.0 and 30° C, respectively. SI-EPL-M-TiO2 was more stable in pH and thermal tests than SIase immobilized on M-TiO2 and free SIase. K(m) of SI-EPL-M-TiO2 was 204.92 mmol/L, and vmax was 45.7 μmol/L/s. Batch catalysis reaction of sucrose by SI-EPL-M-TiO2 was performed under the optimal conditions. The half-life period of SI-EPL-M-TiO2 under continuous reaction was 114 h, and the conversion rate of sucrose after 16 batches consistently remained at around 95%, which indicates that SI-EPL-M-TiO2 has good operational stability. Thus, SI-EPL-M-TiO2 can be used as a biocatalyst in food industries.

摘要

蔗糖异构酶（SIase）是异麦芽酮糖酶促合成中的关键酶。制备了介孔二氧化钛（M-TiO₂）和ε-聚-L-赖氨酸功能化的M-TiO₂（EPL-M-TiO₂）作为固定化SIase的载体。SIase被有效地固定在EPL-M-TiO₂上（SI-EPL-M-TiO₂），酶活性为39.41 U/g，酶活性回收率高达93.26%。固定化SIase的最佳pH值和温度分别为6.0和30℃。在pH和热稳定性测试中，SI-EPL-M-TiO₂比固定在M-TiO₂上的SIase和游离SIase更稳定。SI-EPL-M-TiO₂的K(m)为204.92 mmol/L，vmax为45.7 μmol/L/s。在最佳条件下进行了SI-EPL-M-TiO₂对蔗糖的分批催化反应。SI-EPL-M-TiO₂在连续反应下的半衰期为114 h，16批次后蔗糖的转化率始终保持在95%左右，这表明SI-EPL-M-TiO₂具有良好的操作稳定性。因此，SI-EPL-M-TiO₂可作为食品工业中的生物催化剂。

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一种将蔗糖异构酶固定在ε-聚-L-赖氨酸修饰的介孔二氧化钛上的创新方法。

An innovative method for immobilizing sucrose isomerase on ε-poly-L-lysine modified mesoporous TiO2.

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