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Comprehensive evaluation of extraction process, physicochemical properties and bioactivities of hawk tea polysaccharides: comparison of ultrasonic and hot water extraction

Jianlong Wang, Jiangfei Li, Deyong Zeng, Zhilong Zhou, Yue Zhang, Guanjun Ye, Shuaimin Hu, Naicheng Xin, Runze Li, Alejandro Cifuentes, Elena Ibáñez, Denis Baranenko, Weihong Lu

2025Ultrasonics Sonochemistry26 citationsDOIOpen Access PDF

Abstract

UHTP exhibits lower Mw, higher uronic acid content, shows better biological activities. • An optimized process for ultrasonic − assisted extraction of hawk tea polysaccharides was obtained. • UAE provided 17.00% higher yield, shorter time and lower CO 2 emissions compared to HWE. • Ultrasound extracted HT polysaccharides by changing the cell wall composition, microstructure and particle size (33.35% reduction). Hawk tea (HT) is a long-established substitute tea, rich in polysaccharides and other biologically active ingredients, with research value in food science and medicine. Therefore, this study, utilized ultrasonic extraction (UAE) to extract HT polysaccharides (UHTP). The disparities in extraction yield, energy consumption, and HT structure between UAE and hot water extraction (HWE) were contrasted to elucidate the extraction mechanism. Subsequently, the physicochemical properties and in vitro activities of the UHTP and polysaccharides extracted by hot water (HTP) were examined and evaluated to reveal the correlation between physicochemical properties and bioactivities. The results manifested that under optimal UAE conditions, the polysaccharide yield was 11.08 ± 0.07%. Compared to HWE, UAE had a 17.00% higher extraction yield, 42.66% less energy consumption, and 42.67% lower CO 2 emissions. The improved UAE efficiency stemmed from its greater capacity to modify cell wall composition, disrupt microstructure, and reduce particle size, facilitating mass transfer. Moreover, compared with HTP, UHTP exhibits lower molecular weight and apparent viscosity, higher content of uronic acid (36.81% increase). UAE notably induced polysaccharide chain degradation, yielding UHTP with more homogeneity, smaller particle size, and rougher surface. Ultimately, UHTP demonstrates stronger antioxidant, hypoglycemic and prebiotic activities. Overall, this study offers a theoretical foundation and new prospects for the highly efficient extraction mechanism and the correlation between physicochemical properties and bioactivities of HT polysaccharides.

Topics & Concepts

Extraction (chemistry)PolysaccharideChromatographyChemistryHot water extractionUltrasonic sensorProcess (computing)Water extractionOrganic chemistryComputer scienceAcousticsOperating systemPhysicsPolysaccharides and Plant Cell WallsSeaweed-derived Bioactive CompoundsTea Polyphenols and Effects
Comprehensive evaluation of extraction process, physicochemical properties and bioactivities of hawk tea polysaccharides: comparison of ultrasonic and hot water extraction | Litcius