School of Health and Life Sciences, Teesside University, Middlesbrough TS1 3BX, UK.
School of Chemistry and Molecular Biosciences, The University of Queensland, Brisbane 4072, Queensland, Australia.
Carbohydr Polym. 2021 Dec 1;273:118540. doi: 10.1016/j.carbpol.2021.118540. Epub 2021 Aug 8.
Linkage patterns and relaxation dynamics of baobab (Adansonia digitata) polysaccharides have been investigated by means of linkage analysis and rheometry. The fruit polysaccharide was mostly xylogalacturonan, with co-extracted α-glucan. The leaf polysaccharide consists predominantly of two domains, one branched at O-4 of the →2)-Rhap-(1→ residues and another branched at O-3 of the →4)-GalpA-(1→ backbone to single GlcpA-(1→ residues. Master curves of viscoelasticity of fruit polysaccharides manifested strong pH-dependency. At pH below the dissociation constant of galacturonic acid, dispersions showed liquid-like behaviour. In contrast, at neutral pH, a weak gel network formation was observed that destabilised rapidly under the influence of flow fields. The present work identifies xylogalacturonans from baobab fruit as polysaccharides with unique rheological characteristics that may point to new directions in food and pharmaceutical formulation.
通过键合分析和流变学研究了猴面包树(Adansonia digitata)多糖的键合模式和松弛动力学。该果实多糖主要为木半乳糖醛酸聚糖,伴有共提取的α-葡聚糖。叶多糖主要由两个结构域组成,一个在→2)-Rhap-(1→残基的 O-4 处支化,另一个在→4)-GalpA-(1→主链的 O-3 处支化到单个 GlcpA-(1→残基。果实多糖的粘弹性主曲线表现出强烈的 pH 依赖性。在低于半乳糖醛酸解离常数的 pH 下,分散体表现出类似液体的行为。相比之下,在中性 pH 下,观察到弱的凝胶网络形成,但在流场的影响下迅速失稳。本工作鉴定出猴面包树果实中的木半乳聚糖是具有独特流变特性的多糖,这可能为食品和药物制剂指明新的方向。
