期刊
FOOD HYDROCOLLOIDS
卷 129, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.107667
关键词
Green tea; Polysaccharide conjugates; Molecular weight; Emulsification stability
资金
- National Natural Science Foundation of China [31871813]
- Beijing Advanced Innovation Center for Food Nutrition and Human Health
Tea polysaccharide conjugates (TPCs) have emulsifying properties, and there is a difference in emulsification stability between high- and low-molecular-weight TPCs. Extracted from low-grade green tea, gTPC-T can optimize the emulsification stability, and the synergistic effect between gTPC-1 and gTPC-2 may contribute to the emulsification stability.
Tea polysaccharide conjugates (TPCs) are macromolecular polymers comprising polypeptides covalently bound to polysaccharides with a wide range of molecular weights that are found in tea leaves. We previously found that TPCs had emulsifying properties, but the difference in the emulsification stabilities between the high- and lowmolecular-weight TPCs was unknown. In this study, the total polysaccharide conjugates (gTPC-T) with average molecular weight of 258,900 Da were extracted from low-grade green tea, from which two separate fractions with average molecular weights of 989,600 Da (22.43%) and 47,780 Da (77.57%), which were referred to as gTPC-1 and gTPC-2, respectively, were separated using an ultrafiltration membrane. The polypeptide chains of the three TPCs (gTPC-T, gTPC-1, and gTPC-2) contained 17 out of the 20 canonical amino acids. In addition, gTPC-1 had the highest acidic monosaccharide content. Circular dichroism (CD) an analysis showed that the secondary structures of the protein moieties of the three TPCs were dominated by alpha-helices. The nano-differential scanning calorimetry (Nano-DSC) results showed that the transition midpoints (Tm) of the three samples were 86.69, 59.53, and 68.59 degrees C, respectively. The zeta potential of gTPC-T at weakly acidic or neutral pH (4.0-7.0) was the highest, followed by gTPC-1 and then gTPC-2. Of all three gTPCs, gTPC-1 had the smallest interfacial tension, the highest interfacial pressure, and the best interfacial activity. In addition, gTPC-T slightly betterstabilized the MCT oil-in-water emulsions than gTPC-1, while the emulsification stability of gTPC-2 was the worst. This trend was likely attributed to the synergistic effect between gTPC-1 and gTPC-2.
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