Shanghai Engineering Research Center of Food Safety, School of Agriculture and Biology, Shanghai Jiao Tong University, Shanghai 200240, China.
Institute of Agricultural Information and Economic, Beijing Academy of Agriculture and Forestry Sciences, Beijing 100097, China.
Int J Biol Macromol. 2020 Dec 1;164:3687-3697. doi: 10.1016/j.ijbiomac.2020.08.206. Epub 2020 Aug 31.
In this study, an ultrasonic-extracted polysaccharide (nCPTP-55) was obtained with the highest yield (61.08%, w/w) from tamarind pulp, which consisted chiefly of total sugar (85.98%, w/w) with few protein (2.10%, w/w). Monosaccharide analysis showed nCPTP-55 was mainly composed of arabinose (39.19 mol%) and glucose (50.48 mol%) with negligible GlcA (2.05 mol%), indicating the neutral nature of nCPTP-55, which was further elucidated structurally via GC-MS and NMR, i.e., an arabinoglucan composed of →3)-β-D-Glcp-(1→ backbone with only T-α-L-Araf-(1→ branched at O-4 (27.82%) and O-6 (39.99%), resulting in relatively high A/G ratio (0.68-0.70). Based on MM2 minimized energy, the 3D schematic structures of nCPTP-55 could be considered as structural basis for its conformational behavior, which was preliminarily estimated via HPSEC-MALLS as between compact sphere and loosely hyper-branched chain (ρ = 0.84). Therefore, the relationship between molecular structure and conformational behavior was basically established for nCPTP-55, which was in a bid to have a better knowledge of its structure-property and structure-bioactivity relationships potentially required for more applications in food, cosmetic and pharmaceutical fields.
在这项研究中,从罗望子果肉中获得了一种超声提取的多糖(nCPTP-55),其产率最高(61.08%,w/w),主要由总糖(85.98%,w/w)组成,蛋白质含量很少(2.10%,w/w)。单糖分析表明,nCPTP-55 主要由阿拉伯糖(39.19 mol%)和葡萄糖(50.48 mol%)组成,几乎不含 GlcA(2.05 mol%),表明 nCPTP-55 为中性多糖,这进一步通过 GC-MS 和 NMR 得到了结构阐明,即由 →3)-β-D-Glcp-(1→ 主链组成的阿拉伯半乳聚糖,仅在 O-4(27.82%)和 O-6(39.99%)处有 T-α-L-Araf-(1→ 支链,导致 A/G 比(0.68-0.70)相对较高。基于 MM2 最小化能量,nCPTP-55 的 3D 示意结构可以被认为是其构象行为的结构基础,这通过 HPSEC-MALLS 初步估计为紧凑球体和松散超支链(ρ=0.84)之间。因此,nCPTP-55 的分子结构与构象行为之间的关系基本建立,这有助于更好地了解其结构-性质和结构-生物活性关系,从而在食品、化妆品和制药领域有更多的应用。
