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氨基酸修饰可食用生物膜载体的制备与性质
引用本文:孙 也,王艳萍,李淑雅,刘兆贤,刘 媛. 氨基酸修饰可食用生物膜载体的制备与性质[J]. 食品科学, 2016, 37(19): 59. DOI: 10.7506/spkx1002-6630-201619010
作者姓名:孙 也  王艳萍  李淑雅  刘兆贤  刘 媛
作者单位:天津科技大学食品工程与生物技术学院,天津 300457
摘    要:为拓展乳酸菌生物膜在食品领域的应用,构建可食用型高分子载体,本实验以可介导乳酸菌黏附的氨基酸为配体,将其修饰在海藻酸钠材料上,通过核磁共振技术、氨基酸含量、ζ电势和水接触角等物理量表征载体性质,培养马奶酒样乳杆菌ZW3,研究载体对乳杆菌生长和胞外多糖分泌的促进作用。结果显示:培养4 d后,精氨酸修饰载体表面乳杆菌数量达到3.8×107 CFU/cm2,是赖氨酸修饰载体的3.5 倍;同时胞外多糖分泌量达到28.2 μg/cm2,是赖氨酸修饰载体的2.4 倍。与赖氨酸修饰载体相比,精氨酸修饰载体更有利于乳杆菌的生长和胞外多糖的分泌。该结果表明可以通过配体种类的选择促进乳酸菌生物膜的形成。

关 键 词:氨基酸  海藻酸钠  生物膜  乳酸菌  配体  

Preparation and Properties of Edible Amino Acid-Modified Biofilm Carrier
SUN Ye,WANG Yanping,LI Shuya,LIU Zhaoxian,LIU Yuan. Preparation and Properties of Edible Amino Acid-Modified Biofilm Carrier[J]. Food Science, 2016, 37(19): 59. DOI: 10.7506/spkx1002-6630-201619010
Authors:SUN Ye  WANG Yanping  LI Shuya  LIU Zhaoxian  LIU Yuan
Affiliation:College of Food Engineering and Biotechnology, Tianjin University of Science and Technology, Tianjin 300457, China
Abstract:In order to expand the application of lactic acid bacterial biofilm in the food industry and construct edible
functional carrier, amino acids which could be used as ligands for bacterial adhesion were modified onto alginate in this
study. The structures, compositions, electrical properties and hydrophilicity of the modified carriers (Alg-Arg and Alg-Lys)
were characterized by nuclear magnetic resonance, amino acid content analysis, and ζ potential and water contact angle
measurement. Lactobacillus kefiranofaciens ZW3 was cultured on the carriers to investigate its growth and extracellular
exopolysaccharide secretion. The results showed that after cultivation for 4 d, the amount of ZW3 on Alg-Arg reached up to
3.8 × 107 CFU/cm2, which was 3.5 times as high as that on Alg-Lys. The secretion amount of extracellular exopolysaccharide
was 28.2 μg/cm2, which was increased by 2.4 times in comparison with that on Alg-Lys. Compared with lysine-modified
carrier, arginine-modified carrier was better for ZW3 growth and the secretion of extracellular exopolysaccharide. These
results demonstrated that biofilm formation could be enhanced by the appropriate ligand.
Keywords:amino acid  sodium alginate  biofilm  Lactobacillus  ligand  
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