高压均质法提高酪蛋白-羟丙基纤维素水体系的稳定性

High pressure homogenization to improve the stability of casein - hydroxypropyl cellulose aqueous systems.

作者信息

Ye Ran, Harte Federico

机构信息

Department of Food Science and Technology, University of Tennessee, 2509 River Road, Knoxville, TN 37996-4539, USA.

出版信息

Food Hydrocoll. 2014 Mar 1;35:670-677. doi: 10.1016/j.foodhyd.2013.08.022.

DOI:10.1016/j.foodhyd.2013.08.022

PMID:24159250

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3804271/

Abstract

The effect of high pressure homogenization on the improvement of the stability hydroxypropyl cellulose (HPC) and micellar casein was investigated. HPC with two molecular weights (80 and 1150 kDa) and micellar casein were mixed in water to a concentration leading to phase separation (0.45% w/v HPC and 3% w/v casein) and immediately subjected to high pressure homogenization ranging from 0 to 300 MPa, in 100 MPa increments. The various dispersions were evaluated for stability, particle size, turbidity, protein content, and viscosity over a period of two weeks and Scanning Transmission Electron Microscopy (STEM) at the end of the storage period. The stability of casein-HPC complexes was enhanced with the increasing homogenization pressure, especially for the complex containing high molecular weight HPC. The apparent particle size of complexes was reduced from ~200nm to ~130nm when using 300 MPa, corresponding to the sharp decrease of absorbance when compared to the non-homogenized controls. High pressure homogenization reduced the viscosity of HPC-casein complexes regardless of the molecular weight of HPC and STEM imagines revealed aggregates consistent with nano-scale protein polysaccharide interactions.

摘要

研究了高压均质化对提高羟丙基纤维素（HPC）和酪蛋白胶束稳定性的影响。将两种分子量（80和1150 kDa）的HPC与酪蛋白胶束在水中混合至导致相分离的浓度（0.45% w/v HPC和3% w/v酪蛋白），并立即进行0至300 MPa的高压均质化，以100 MPa为增量。在两周的时间内评估各种分散体的稳定性、粒径、浊度、蛋白质含量和粘度，并在储存期结束时进行扫描透射电子显微镜（STEM）分析。酪蛋白-HPC复合物的稳定性随着均质化压力的增加而增强，特别是对于含有高分子量HPC的复合物。当使用300 MPa时，复合物的表观粒径从约200nm减小到约130nm，与未均质化对照相比，吸光度急剧下降。无论HPC的分子量如何，高压均质化均降低了HPC-酪蛋白复合物的粘度，并且STEM图像显示出与纳米级蛋白质多糖相互作用一致的聚集体。

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