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中国精品科技期刊2020
李雨洋,米锐,于鹏能,等. 海洋动物皂苷提取和纯化方法研究进展J. 食品工业科技,2026,47(18):1−12. doi: 10.13386/j.issn1002-0306.2025080009.
引用本文: 李雨洋,米锐,于鹏能,等. 海洋动物皂苷提取和纯化方法研究进展J. 食品工业科技,2026,47(18):1−12. doi: 10.13386/j.issn1002-0306.2025080009.
LI Yuyang, MI Rui, YU Pengneng, et al. Research Progress on Extraction and Purification Methods of Marine Animal SaponinsJ. Science and Technology of Food Industry, 2026, 47(18): 1−12. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025080009.
Citation: LI Yuyang, MI Rui, YU Pengneng, et al. Research Progress on Extraction and Purification Methods of Marine Animal SaponinsJ. Science and Technology of Food Industry, 2026, 47(18): 1−12. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025080009.

海洋动物皂苷提取和纯化方法研究进展

Research Progress on Extraction and Purification Methods of Marine Animal Saponins

  • 摘要: 皂苷是一种来源于高等植物和海洋动物的活性成分,具有抗炎、抗肿瘤和降低胆固醇等多种药用价值,也是天然的抗菌剂和表面活性剂,在食品、医药、化妆品和农业等领域具有极大的开发利用潜力。海洋动物皂苷主要存在于海参与海星中,均具有良好的生物活性,在开发利用方面具有广阔的前景。但由于海洋动物皂苷含量不高导致其产业化应用受限,因此,提高海洋动物皂苷的提取效率和纯度成为了现阶段的研究热点。本文对目前海洋动物皂苷的提取和纯化方法进行了分类与总结,有机溶剂提取结合色谱法纯化是实验室获取高纯度皂苷的主要方法,但在产业化应用上存在有机试剂残留、产量有限和成本高的问题。使用绿色安全的低共熔溶剂和超临界流体进行提取,超声、微波和酶解等方式进行辅助提取,纯化前进行富集是有效的改进方法。本文为海洋动物皂苷的制备提供参考,未来有望开发海洋动物皂苷类功能性食品,对海洋动物皂苷的利用和人类的健康起到积极推动作用。

     

    Abstract: Saponins are bioactive ingredients derived from higher plants and marine animals. They possess a range of medicinal properties, including anti-inflammatory, anti-tumor, and cholesterol-lowering effects. Furthermore, as natural antibacterial and surfactant agents, they exhibit significant potential for applications in the food, pharmaceutical, cosmetic, and agricultural industries. Marine animal saponins mainly exist in sea cucumbers and starfishes, which have good biological activity and have broad prospects for development and utilization. However, due to the low content of saponins in marine animals, their industrial application is limited. Therefore, enhancing the extraction efficiency and purity of marine animal saponins has become a major research focus. This article delineates and classifies contemporary methodologies for the extraction and purification of saponins from marine fauna. Although laboratory-scale isolation of high-purity saponins predominantly relies on organic solvent extraction coupled with chromatographic purification, the transposition of this paradigm to an industrial context is impeded by limitations pertaining to solvent toxicity, suboptimal efficiency, and prohibitive costs. Emerging strategies to circumvent these drawbacks encompass the implementation of environmentally benign solvents, notably deep eutectic solvents and supercritical fluids, frequently augmented by physical (e.g., ultrasonic, microwave) or enzymatic treatments. The incorporation of a pre-enrichment step prior to final purification further constitutes a viable optimization tactic. This comprehensive analysis provides a foundational framework for the preparation of marine saponins and underscores their potential in the formulation of functional foods, thereby advocating for their enhanced utilization in promoting human health.

     

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