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中国精品科技期刊2020
姜甜,陆文伟,崔树茂,等. 不同微囊化方法包埋双歧杆菌菌粉特性分析[J]. 华体会体育,2021,42(11):128−134. doi: 10.13386/j.issn1002-0306.2020100241.
引用本文: 姜甜,陆文伟,崔树茂,等. 不同微囊化方法包埋双歧杆菌菌粉特性分析[J]. 华体会体育,2021,42(11):128−134. doi: 10.13386/j.issn1002-0306.2020100241.
JIANG Tian, LU Wenwei, CUI Shumao, et al. Characteristic Analysis of Different Microencapsulated Bifidobacterium [J]. Science and Technology of Food Industry, 2021, 42(11): 128−134. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2020100241.
Citation: JIANG Tian, LU Wenwei, CUI Shumao, et al. Characteristic Analysis of Different Microencapsulated Bifidobacterium [J]. Science and Technology of Food Industry, 2021, 42(11): 128−134. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2020100241.

不同微囊化方法包埋双歧杆菌菌粉特性分析

Characteristic Analysis of Different Microencapsulated Bifidobacterium

  • 摘要: 为分析不同微囊化双歧杆菌菌粉在模拟消化道环境的特性,采用静电喷雾微囊化、常规喷雾微囊化和乳化冷冻微囊化方法包埋不同双歧杆菌菌粉,并研究它们通过模拟消化道仿生系统后的存活率、疏水性、自沉淀率、粘附性和细胞脂磷壁酸中脂肪酸含量。它们的体外模拟消化实验结果表明,静电喷雾微囊化双歧杆菌的存活率高于常规喷雾微囊化和乳化冷冻微囊化,静电喷雾微囊化乳双歧杆菌BL03在经过胃液、十二指肠、回肠后的存活率高达55.01%±4.12%。经过模拟消化道后的不同微囊化双歧杆菌,除长双歧杆菌BLL2外,静电喷雾微囊化双歧杆菌疏水性比乳化冷冻微囊化双歧杆菌提高125.14%~368.75%;静电喷雾微囊化双歧杆菌自沉淀率比乳化冷冻微囊化双歧杆菌提高112.50%~372.72%;除长双歧杆菌BLL2外,静电喷雾微囊化双歧杆菌粘附性比乳化冷冻微囊化双歧杆菌提高109.52%~411.11%,静电喷雾微囊化和常规喷雾微囊化方法明显优于乳化冷冻微囊化,静电喷雾干燥乳双歧杆菌BL03的粘附数高达(46.18±2.82)CFU/cell,静电喷雾微囊化乳双歧杆菌BL03包埋率高达93.31%±3.16%。不同微囊化菌株通过模拟消化道后,静电喷雾和常规喷雾微囊化双歧杆菌的C12:0和C6:0脂肪酸含量高于乳化冷冻微囊化,而C18:1n9c不饱和脂肪酸含量低于乳化冷冻微囊化。综合所述,在模拟消化道仿生系统环境胁迫下,静电喷雾干燥是良好的微囊化双歧杆菌方法。

     

    Abstract: To analyse the characteristic of different microencapsulated Bifidobacterium in simulated digestive tract, different Bifidobacterium were embedded by electrostatic spray, conventional spray and emulsification freezing method. The survival rate, hydrophobicity, copolymerization, adhesion and fatty acid of lipoteichoic acid were studied after passing through the simulated digestive tract. The survival rate of electrostatic spray microencapsulation was higher than traditional spray microencapsulation and emulsification freezing microencapsulation. The survival rate of electrostatic spray microencapsulated Bifidobacterium lactis BL03 was 55.01%±4.12% after passing through the simulated digestive tract.The hydrophobicity of electrostatic spray microencapsulated Bifidobacterium was 125.14%~368.75% higher than emulsification freezing microencapsulation except Bifidobacterium longum BLL2. The copolymerization of electrostatic spray microencapsulated Bifidobacterium was 112.50%~372.72% higher than emulsification freezing microencapsulation. The adhesion of electrostatic spray microencapsulated Bifidobacterium was 109.52%~411.11% higher than emulsification freezing microencapsulation except Bifidobacterium longum BLL2. The Electrostatic spray microencapsulation and traditional spray microencapsulation were better than emulsification freezing microencapsulation. The adhesion and embedding rate was (46.18±2.82)CFU/cell and 93.31%±3.16%, respectively for electrostatic spray microencapsulated Bifidobacterium lactis BL03. The content of C12:0 and C6:0 fatty acid of electrostatic spray microencapsulation and conventional spray microencapsulation were higher than emulsification freezing microencapsulation, but C18:1n9c fatty acid was lower. Electrostatic spray drying was the best microencapsulated method for Bifidobacterium in the condition of simulating digestive tract.

     

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