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Structural and functional properties of polysaccharides extracted from three Dioscorea species

Dioscorea has a history spanning over 2000 years for both medicinal and edible purposes in China. It contains rich polysaccharides, which are frequently utilized as thickening and stabilizing agents in the food industry. However, there has been relatively little focus on polysaccharides from common...

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Published in:	International journal of biological macromolecules 2024-11, Vol.281 (Pt 4), p.136469, Article 136469
Main Authors:	Jiang, Shuo, Xie, Huifang, Zuo, Youming, Sun, Jian, Wu, Dianxing, Shu, Xiaoli
Format:	Article
Language:	English
Subjects:	Antioxidant Antioxidants - chemistry Antioxidants - isolation & purification Antioxidants - pharmacology Dioscorea Dioscorea - chemistry Emulsifying Agents - chemistry Emulsifying Agents - isolation & purification Emulsion Monosaccharides - analysis Monosaccharides - chemistry Polysaccharides Polysaccharides - chemistry Polysaccharides - isolation & purification Polysaccharides - pharmacology Structure
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container_issue	Pt 4
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container_title	International journal of biological macromolecules
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creator	Jiang, Shuo Xie, Huifang Zuo, Youming Sun, Jian Wu, Dianxing Shu, Xiaoli
description	Dioscorea has a history spanning over 2000 years for both medicinal and edible purposes in China. It contains rich polysaccharides, which are frequently utilized as thickening and stabilizing agents in the food industry. However, there has been relatively little focus on polysaccharides from common Dioscorea species besides D. opposita, such as D. alata and D. esculenta. In this study, non-starch crude polysaccharides were isolated from D. opposita (BD), D. alata (WC), and D. esculenta (GZ). Their structures, physicochemical compositions, and functional properties were characterized and compared. The results indicated three polysaccharides all exhibited characteristic peaks of polysaccharides and possessed triple-helix structures. The Glc (36.78–83.90 %), Man (6.71–26.68 %), and GalA (8.54–10.22 %) were identified as the primary monosaccharide components. In terms of functionality, three polysaccharide solutions demonstrated non-Newtonian flow characteristics and displayed commendable thermal stability. It is worth noting that the antioxidant and emulsifying properties of polysaccharides isolated from D. opposita (BD) and D. alata (WC) were superior to those of D. esculenta (GZ), making them more suitable for use as antioxidants and stabilizers. By comparing polysaccharides derived from different Dioscorea species, this study provides valuable insights into the food, cosmetic, and pharmaceutical industries based on the unique properties of these different polysaccharides.
doi_str_mv	10.1016/j.ijbiomac.2024.136469
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It is worth noting that the antioxidant and emulsifying properties of polysaccharides isolated from D. opposita (BD) and D. alata (WC) were superior to those of D. esculenta (GZ), making them more suitable for use as antioxidants and stabilizers. 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It contains rich polysaccharides, which are frequently utilized as thickening and stabilizing agents in the food industry. However, there has been relatively little focus on polysaccharides from common Dioscorea species besides D. opposita, such as D. alata and D. esculenta. In this study, non-starch crude polysaccharides were isolated from D. opposita (BD), D. alata (WC), and D. esculenta (GZ). Their structures, physicochemical compositions, and functional properties were characterized and compared. The results indicated three polysaccharides all exhibited characteristic peaks of polysaccharides and possessed triple-helix structures. The Glc (36.78–83.90 %), Man (6.71–26.68 %), and GalA (8.54–10.22 %) were identified as the primary monosaccharide components. In terms of functionality, three polysaccharide solutions demonstrated non-Newtonian flow characteristics and displayed commendable thermal stability. It is worth noting that the antioxidant and emulsifying properties of polysaccharides isolated from D. opposita (BD) and D. alata (WC) were superior to those of D. esculenta (GZ), making them more suitable for use as antioxidants and stabilizers. 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subjects	Antioxidant Antioxidants - chemistry Antioxidants - isolation & purification Antioxidants - pharmacology Dioscorea Dioscorea - chemistry Emulsifying Agents - chemistry Emulsifying Agents - isolation & purification Emulsion Monosaccharides - analysis Monosaccharides - chemistry Polysaccharides Polysaccharides - chemistry Polysaccharides - isolation & purification Polysaccharides - pharmacology Structure
title	Structural and functional properties of polysaccharides extracted from three Dioscorea species
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