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中国精品科技期刊2020
高佳慧,杨馨悦,韩雨蒙,等. pH对酸法提取甘草多糖结构的影响[J]. 食品工业科技,2023,44(19):24−31. doi: 10.13386/j.issn1002-0306.2022110051.
引用本文: 高佳慧,杨馨悦,韩雨蒙,等. pH对酸法提取甘草多糖结构的影响[J]. 食品工业科技,2023,44(19):24−31. doi: 10.13386/j.issn1002-0306.2022110051.
GAO Jiahui, YANG Xinyue, HAN Yumeng, et al. Effect of Extraction pH on the Structure of Glycyrrhiza Polysaccharide with Acid-extraction[J]. Science and Technology of Food Industry, 2023, 44(19): 24−31. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110051.
Citation: GAO Jiahui, YANG Xinyue, HAN Yumeng, et al. Effect of Extraction pH on the Structure of Glycyrrhiza Polysaccharide with Acid-extraction[J]. Science and Technology of Food Industry, 2023, 44(19): 24−31. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110051.

pH对酸法提取甘草多糖结构的影响

Effect of Extraction pH on the Structure of Glycyrrhiza Polysaccharide with Acid-extraction

  • 摘要: 本研究以甘草渣为原料,采用不同pH酸溶液(HCl、pH1P1、pH3P3、pH5P5)为提取液制备甘草多糖,采用离子色谱及高性能尺寸排阻色谱法分别测定单糖的组成和相对分子量,通过红外光谱、原子力显微镜、核磁共振、扫描电镜及X射线衍射等技术对甘草多糖结构进行分析和比较。结果表明,3种甘草多糖均为杂多糖,主要由不同比例的Fuc(岩藻糖)、Rha(鼠李糖)、Ara(阿拉伯糖)、Gal(半乳糖)、Glc(葡萄糖)和GalA(半乳糖醛酸)组成;P3重均分子量(Mw)呈多组分分布,Mw为682 kDa约占7.3%(w/w),Mw为7110 kDa约占92.7%(w/w),Mw最大;红外与核磁谱图验证了3种甘草多糖可能均是以→4)-β-D-Glcp-(1→连接单元为主;刚果红实验显示P1和P5可能存在三股螺旋构象;扫描电镜显示P3和P5具有相似的形态结构,其表现为大量的圆球形颗粒状堆积成表面粗糙的网状结构,而P1呈片状结构,具有不平坦的表面和孔隙结构;原子力显微镜显示3种不同提取方法的甘草多糖呈相互分支和纠缠结构,有少量较小的球状聚集体的微观结构形;X射线衍射分析表明P1具有晶体和非晶态结构,而P3和P5无晶体结构。因此,不同pH对酸提甘草多糖的结构影响显著。

     

    Abstract: In this study, the Glycyrrhiza polysaccharides were prepared from Glycyrrhiza residues with different pH acid solutions (HCl, pH 1P1, pH 3P3, pH 5P5) as extraction solution. The monosaccharide composition and relative molecular weight of Glycyrrhiza polysaccharides were determined by Dionex system and high performance size exclusion chromatography. The structures of Glycyrrhiza polysaccharides were analyzed and compared by FT-IR spectroscopy, atomic force microscope (AFM), nuclear magnetic resonance (NMR), scanning electron microscope (SEM) and X-Ray diffraction (XRD). The results showed that three Glycyrrhiza polysaccharides were heteropolysaccharides, which were mainly composed of Fuc (fucose), Rha (rhamnose-rhamnose), Ara (arabose), Gal (galactose), Glc (glucose) and GalA (galacturonic acid) in different proportions. The weight average molecular weight (Mw) of P3 exhibited a multicomponent distribution. Mw(682 kDa) accounted for about 7.3% (w/w), and Mw(7110 kDa) was about 92.7% (w/w), accounting for the largest proportion. The FT-IR spectroscopy and NMR verified that the backbone of Glycyrrhiza polysaccharides could be composed of→4)-β-D-Glcp-(1→. Congo red experiment showed that P1 and P5 might have a triple helix conformation. The SEM showed a similar morphological structure both in P3 and P5, which was a network structure with a rough surface cumulated by a large number of spherical particles. While P1 was a lamellar structure with an uneven surface and multiple pores. The AFM revealed a mutually branched and intertwined structure of Glycyrrhiza polysaccharide, and a small amount of Glycyrrhiza polysaccharide displayed a microstructure of spherical aggregates. The XRD showed that P1 had crystal and amorphous structure, while P3 and P5 had no crystal structure. Therefore, the structure of Glycyrrhiza polysaccharide by acid extraction was significantly affected by different pH.

     

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