使用β-半乳糖苷酶脂质体模型作为筛选冷冻干燥保护剂的新方法。

Use of β-galactosidase liposome model as a novel method to screen freeze-drying cryoprotectants.

机构信息

College of Biological Science and Biotechnology, Beijing Forestry University, Box 162, Qinghua E Rd 35, Beijing, People's Republic of China.

出版信息

World J Microbiol Biotechnol. 2013 Oct;29(10):1907-12. doi: 10.1007/s11274-013-1355-8. Epub 2013 Apr 21.

DOI:10.1007/s11274-013-1355-8

PMID:23604792

Abstract

This study developed a novel method of screening cryoprotectants used to improve the survivability of lyophilized Lactobacillus helveticus. To develop a liposome encapsulated β-galactosidase (β-gal) as a cell membrane model, the β-gal liposome was characterized in terms of mean size, poly dispersity index, zeta potential, along with transmission electron microscopy. 800 W of ultrasonic power and 10 min of sonication time were the optimal experimental conditions to obtain the desirable β-gal liposome. Subsequently, different cryoprotectants were mixed with the β-gal liposome during freeze-drying. After freeze-drying, liposomes were hydrolized, and the protective effect of cryoprotectants was assessed as the release rate of encapsulated β-gal. The lowest release rate of β-gal was obtained using 10 mg/100 ml trehalose and 0.2 mg/100 ml hyaluronic acid.

摘要

本研究开发了一种新的筛选方法，用于筛选可提高冻干瑞士乳杆菌存活率的冷冻保护剂。为了开发一种包封β-半乳糖苷酶（β-gal）的脂质体作为细胞膜模型，对β-gal 脂质体的平均粒径、多分散指数、Zeta 电位以及透射电子显微镜进行了表征。超声功率 800 W 和超声时间 10 min 是获得理想β-gal 脂质体的最佳实验条件。随后，在冷冻干燥过程中，不同的冷冻保护剂与β-gal 脂质体混合。冷冻干燥后，脂质体被水解，并通过包封β-gal 的释放率来评估冷冻保护剂的保护效果。使用 10 mg/100 ml 海藻糖和 0.2 mg/100 ml 透明质酸可获得最低的β-gal 释放率。

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使用β-半乳糖苷酶脂质体模型作为筛选冷冻干燥保护剂的新方法。

Use of β-galactosidase liposome model as a novel method to screen freeze-drying cryoprotectants.

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