Influence of Pectin Structural Properties on Interactions with Divalent Cations and Its Associated Functionalities

Comprehensive Reviews in Food Science and Food Safety - Tập 17 Số 6 - Trang 1576-1594 - 2018

Miete Celus¹, Clare Kyomugasho¹, Ann Van Loey¹, Tara Grauwet¹, Marc Hendrickx¹

¹KU Leuven Department of Microbial and Molecular Systems (M2S), Laboratory of Food Technology, Leuven Food Science and Nutrition Research Centre (LFoRCe), Kasteelpark Arenberg 22, Box 2457, 3001 Leuven, Belgium

Tóm tắt

AbstractPectin is an anionic cell wall polysaccharide which is known to interact with divalent cations via its nonmethylesterified galacturonic acid units. Due to its cation‐binding capacity, extracted pectin is frequently used for several purposes, such as a gelling agent in food products or as a biosorbent to remove toxic metals from waste water. Pectin can, however, possess a large variability in molecular structure, which influences its cation‐binding capacity. Besides the pectin structure, several extrinsic factors, such as cation type or pH, have been shown to define the cation binding of pectin. This review paper focuses on the research progress in the field of pectin‐divalent cation interactions and associated functional properties. In addition, it addresses the main research gaps and challenges in order to clearly understand the influence of pectin structural properties on its divalent cation‐binding capacity and associated functionalities. This review reveals that many factors, including pectin molecular structure and extrinsic factors, influence pectin–cation interactions and its associated functionalities, which makes it difficult to predict the pectin–cation‐binding capacity. Despite the limited information available, determination of the cation‐binding capacity of pectins with distinct structural properties using equilibrium adsorption experiments or isothermal titration calorimetry is a promising tool to gain fundamental insights into pectin–cation interactions. These insights can then be used in targeted pectin structural modification, in order to optimize the cation‐binding capacity and to promote pectin–cation interactions, for instance for a structure build‐up in food products without compromising the mineral nutrition value.

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