Changes in molecular structure of citrus pectin in acidic environments at ambient temperature

IF 12.5 1区化学 Q1 CHEMISTRY, APPLIED Carbohydrate Polymers Pub Date : 2025-05-15 Epub Date: 2025-02-15 DOI:10.1016/j.carbpol.2025.123411

Mengyu Ma , Jiefen Cui , Yuyang Zhang , Christophe Blecker , Jinkai Zheng

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Abstract

The environmental pH regulates the chemical structure and functional properties of pectin, but the structural changes, especially in acidic environments at ambient temperature, have not been studied. In this study, as acidity increased from pH 7.0 to 1.0, the molecular weight of pectin decreased gradually from 1.90 × 10⁵ to 0.36 × 10⁵ g/mol, while the size of the HG region increased from 75.37 % to 85.49 % with an increased degree of esterification. Notably, visualization tools, chemical methods, and molecular dynamics simulations were used to analyze conformation. The transition from molecular dispersal, dominated by electrostatic repulsion, at neutral pH to molecular aggregation, dominated by hydrogen bonding and hydrophobic forces in an acidic environment, was elucidated. The pectin molecules changed from loose structures (Rg 17.3 nm; D_max 115 nm) at pH 7.0 to a compact conformation (Rg 15.0 nm; D_max 98 nm) at pH 2.0. Our study would improve the understanding of the effects of an acidic environment on pectin structure and function in practical processes, from farmland to storage, processing, and dietary digestion.

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酸性环境下柑橘果胶分子结构的变化

环境pH值调节果胶的化学结构和功能特性，但其结构变化，特别是在酸性环境下的结构变化尚未得到研究。在本研究中，随着酸度从pH 7.0增加到1.0，果胶的分子量从1.90 × 105逐渐降低到0.36 × 105 g/mol，而HG区的大小随着酯化程度的增加从75.37%增加到85.49%。值得注意的是，可视化工具、化学方法和分子动力学模拟被用于分析构象。阐明了中性pH下由静电斥力主导的分子分散到酸性环境下由氢键和疏水力主导的分子聚集的转变。果胶分子由松散结构(Rg 17.3 nm；Dmax为115 nm)在pH 7.0下形成致密构象(Rg为15.0 nm；Dmax 98 nm)， pH为2.0。我们的研究将有助于进一步了解酸性环境对果胶结构和功能的影响，从农田到储存、加工和膳食消化的实际过程。

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来源期刊

Carbohydrate Polymers 化学-高分子科学

CiteScore

22.40

自引率

8.00%

发文量

1286

审稿时长

47 days

期刊介绍： Carbohydrate Polymers stands as a prominent journal in the glycoscience field, dedicated to exploring and harnessing the potential of polysaccharides with applications spanning bioenergy, bioplastics, biomaterials, biorefining, chemistry, drug delivery, food, health, nanotechnology, packaging, paper, pharmaceuticals, medicine, oil recovery, textiles, tissue engineering, wood, and various aspects of glycoscience. The journal emphasizes the central role of well-characterized carbohydrate polymers, highlighting their significance as the primary focus rather than a peripheral topic. Each paper must prominently feature at least one named carbohydrate polymer, evident in both citation and title, with a commitment to innovative research that advances scientific knowledge.