Effects of Dynamic High-pressure Microfluidization on the Physicochemical Properties and Structure of Low-Methoxyl Pectin

Q4 Agricultural and Biological Sciences
Xi-xiang Shuai, Cheng-mei Liu, Jun Chen, Rui-hong Liang, Ling-hua Wang, Wei Liu, Wen-Li Guo
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Abstract

In this study, the effects of dynamic high-pressure microfluidization(DHPM) on the physicochemical properties and structure of low-methoxyl pectin(LMP) from Ficus pumila L. seeds were studied. LMP was treated under different DHPM pressures(0~160 MPa) and cycles(1~9 times), and the structure and physicochemical properties of DHPM-treated LMP were comprehensively evaluated using various indicators such as molecular weight, intrinsic viscosity, particle size, reducing sugar level, Fourier transform infrared(FT-IR) spectra, and surface morphology. The results showed that with increasing DHPM pressures and cycles, the molecular weight, intrinsic viscosity, and particle size of LMP decreased, whereas the amount of reducing sugars increased. At the same time, the surface topography of LMP changed from a foliated structure to a filament structure, indicating that LMP degraded during DHPM. The degradation of LMP mainly resulted from the rupture of the glycosidic bond by DHPM mechanical forces. The FT-IR spectra of DHPM-treated pectin had features similar to those of untreated pectin; however, the intensity of the absorption peak at 1744.8 cm-1(C=O) increased with increasing DHPM pressures. The experimental determination of the methoxyl group and double bond contents revealed that demethoxylation and β-elimination did not occur during DHPM.
动态高压微流化对低甲氧基果胶理化性质和结构的影响
本文研究了动态高压微流化(DHPM)对无花果种子低甲氧基果胶(LMP)理化性质和结构的影响。在不同DHPM压力(0~160 MPa)和循环次数(1~9次)下处理LMP,通过分子量、特性粘度、粒径、还原糖水平、傅里叶变换红外(FT-IR)光谱和表面形貌等指标综合评价处理后的LMP的结构和理化性能。结果表明,随着DHPM压力和循环次数的增加,LMP的分子量、特性粘度和粒径减小,而还原糖的含量增加;同时,LMP表面形貌由叶状结构转变为丝状结构,表明在DHPM过程中LMP发生了降解。LMP的降解主要是由于DHPM机械力使糖苷键断裂。dhpm处理果胶的FT-IR光谱特征与未处理果胶相似;1744.8 cm-1(C=O)处的吸收峰强度随着DHPM压力的增加而增加。实验测定甲氧基和双键含量表明,在DHPM过程中没有发生去甲氧基化和β-消除。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
现代食品科技
现代食品科技 Agricultural and Biological Sciences-Food Science
CiteScore
0.80
自引率
0.00%
发文量
10479
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