冻害甜菜胞外多糖的结构与化学成分

IF 0.2 4区农林科学 Q4 FOOD SCIENCE & TECHNOLOGY

Sugar Industry-Zuckerindustrie Pub Date : 2020-12-27 DOI:10.36961/si25906

Aneta Antczak-Chrobot, M. Wojtczak

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引用次数: 0

摘要

本文介绍了一种从冻害甜菜中分离多糖的方法，并分析了从不同产地甜菜中分离的聚合物的结构和化学成分。总酸水解降解结合HPAEC-ED分析证实了分离多糖的单体组成。研究了外多糖结构的核磁共振光谱分析和SEC色谱法。结果表明，胞外多糖的化学组成和结构取决于其来源。来自中欧甜菜根的典型外多糖主要由葡萄糖单体组成，它们具有低分支结构，约90%的α-1,6键是典型的右旋糖酐。从瑞典甜菜中分离的胞外多糖具有50-60%的果糖单体。它们只含有约65%的α-1,6键。从不同来源的甜菜中提取的胞外多糖的平均分子质量不同。分子分布不正常。

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Structure and chemical composition of exopolysaccharides of frost-damaged sugar beet

In this research paper, development of a procedure of isolation of exopolysaccharides from frost-damaged beet and an analysis of structural and chemical composition of polymers isolated from sugar beet of different origin are presented. Total acid hydrolysis degradation integrated with HPAEC-ED analysis has been utilized to confirm the monomeric composition of the separated polysaccharides. The implementation of NMR spectral analysis and SEC chromatography of the structure of exopolysaccharides has been investigated. The results demonstrate that the chemical composition and structure of exopolysaccharides depend on their origin. Typical exopolysaccharides from Central European beet roots consist mainly of glucose monomers – and they have low branched structure – about 90% of α-1,6 linkage which is typical for dextran. The exopolysaccharides isolated from Swedish beet are characterized by 50–60% fructose monomers. They contain only about 65% α-1,6 linkages. Exopolysaccharides extracted from various origin beet differ in average molecular mass. The molecular distribution is not normal.

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来源期刊

Sugar Industry-Zuckerindustrie 工程技术-食品科技

CiteScore

0.50

自引率

50.00%

发文量

审稿时长

18-36 weeks

期刊介绍： Sugar Industry / Zuckerindustrie accepts original papers (research reports), review articles, and short communications on all the aspects implied by the journals title and subtitle.