Modifying the technological properties and the release of cocoa compounds of active gliadin films by increasing the temperature of processing

IF 3.5 2区农林科学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Food and Bioproducts Processing Pub Date : 2025-03-05 DOI:10.1016/j.fbp.2025.03.003

Carol López-de-Dicastillo , Patricia Esteve-Redondo , Adrián Rojas , Joaquín Gómez-Estaca , Rafael Gavara , Pilar Hernández-Muñoz

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引用次数: 0

Abstract

The search for bio-based polymers from renewable sources and compostable nature is undoubtedly a focus of interest and need in the area of plastics and mainly for food packaging. Gliadins, proteins found in wheat gluten, are an interesting and sustainable alternative because they are biodegradable, come from a renewable source and have interesting properties as gas barrier, although some technological properties need to be improved in order to broaden their applications. In this work, gliadin bioresin films were processed with water- and lipid-soluble cocoa extracts at 5 and 10 % respect polymer weight by thermo-compression at 90 and 130 °C in order to study both the effect of the type of extract, their concentrations and the processing temperature on the physical and functional properties of the active systems. Undoubtedly, the main condition that positively affected the properties of the resulting active films was the thermo-compression at 130 °C, since it allowed a better miscibility between the active compounds and the biopolymeric chains of the gliadins, and produced a certain crosslinking between disulphide/sulfhydryl groups and polyphenol-protein bonds that resulted in their water resistance. The reduction of weight loss in water achieved values up to 60 %, while in ethanol 95 %, the improvement in resistance was not significant. The mechanical properties of active gliadin films were also highly affected principally when processed at 130 ºC; the elastic modulus decreased while the elongation at break values increased up to values between 113 % and 150 %. The water vapor permeability was greatly reduced from 4.22 to 2.4 × 10¹⁴ Kg m/m² s Pa for active gliadin film containing 10 % lipid soluble cocoa extract. The release of cocoa compounds was totally dependent on the type of the extract and the food simulant. The general conclusion was that by modifying the active compounds and the processing temperature, gliadin films with different technological and antioxidant properties were achieved.

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通过提高加工温度来改变活性麦胶蛋白薄膜的工艺性能和可可化合物的释放

从可再生资源和可堆肥性质中寻找生物基聚合物无疑是塑料领域的兴趣和需求焦点，主要用于食品包装。麦胶蛋白是一种存在于小麦面筋中的蛋白质，是一种有趣且可持续的替代品，因为它们是可生物降解的，来自可再生资源，具有有趣的气体屏障特性，尽管为了扩大其应用范围，一些技术特性需要改进。在这项工作中，我们用水溶性和脂溶性可可提取物在90°C和130°C下以聚合物质量的5%和10% %进行热压加工，以研究提取物的类型、浓度和加工温度对活性体系的物理和功能特性的影响。毫无疑问，对活性膜性能产生积极影响的主要条件是在130°C下的热压缩，因为它允许活性化合物与麦胶蛋白的生物聚合物链之间更好的混溶，并在二硫/巯基和多酚-蛋白质键之间产生一定的交联，从而导致它们的耐水性。在水中的减重达到60% %，而在乙醇中95% %，抗性改善不显著。活性麦胶蛋白薄膜在130℃下加工时，其机械性能也受到较大影响；弹性模量降低，断裂伸长率增加，达到113 % ~ 150 %。含有10 %脂溶性可可提取物的活性麦胶蛋白膜的水蒸气渗透率从4.22降低到2.4 × 1014 Kg m/m2 s Pa。可可化合物的释放完全取决于萃取物和食物模拟物的类型。总的结论是，通过改变活性化合物和加工温度，可以得到具有不同工艺性能和抗氧化性能的麦胶蛋白膜。

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来源期刊

Food and Bioproducts Processing 工程技术-工程：化工

CiteScore

9.70

自引率

4.30%

发文量

115

审稿时长

24 days

期刊介绍： Official Journal of the European Federation of Chemical Engineering: Part C FBP aims to be the principal international journal for publication of high quality, original papers in the branches of engineering and science dedicated to the safe processing of biological products. It is the only journal to exploit the synergy between biotechnology, bioprocessing and food engineering. Papers showing how research results can be used in engineering design, and accounts of experimental or theoretical research work bringing new perspectives to established principles, highlighting unsolved problems or indicating directions for future research, are particularly welcome. Contributions that deal with new developments in equipment or processes and that can be given quantitative expression are encouraged. The journal is especially interested in papers that extend the boundaries of food and bioproducts processing. The journal has a strong emphasis on the interface between engineering and food or bioproducts. Papers that are not likely to be published are those: • Primarily concerned with food formulation • That use experimental design techniques to obtain response surfaces but gain little insight from them • That are empirical and ignore established mechanistic models, e.g., empirical drying curves • That are primarily concerned about sensory evaluation and colour • Concern the extraction, encapsulation and/or antioxidant activity of a specific biological material without providing insight that could be applied to a similar but different material, • Containing only chemical analyses of biological materials.