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超临界 CO 处理含苹果汁和根水提物的功能性饮料:非热和热处理后低聚果糖的化学稳定性。

Supercritical CO Processing of a Functional Beverage Containing Apple Juice and Aqueous Extract of Roots: Fructooligosaccharides Chemical Stability after Non-Thermal and Thermal Treatments.

机构信息

LASEFI, Department of Food Engineering, School of Food Engineering, University of Campinas, Campinas 13083-862, Brazil.

Bioflavors and Bioactive Compounds Laboratory, Department of Food Science, School of Food Engineering, University of Campinas, Campinas 13083-862, Brazil.

出版信息

Molecules. 2020 Aug 27;25(17):3911. doi: 10.3390/molecules25173911.

Abstract

The effects of supercritical CO processing on the chemical stability of fructooligosaccharides (FOS) and other functional and nutritional compounds were evaluated employing non-thermal and thermal approaches. Apple juice was enriched with roots aqueous extract due to its high content of short-chain FOS and then subjected to different levels of temperature (40 and 60 °C), pressure (8 and 21 MPa), and CO volume ratio (20 and 50%). The percentage of CO volume was evaluated concerning the total volume of the high-pressure reactor. Also, the functional beverage was thermally treated at 105 °C for 10 min. Physicochemical properties (pH and soluble solid content), beta-ecdysone, sugars (glucose, fructose, and sucrose), and FOS (1-kestose, nystose, and fructofuranosylnystose) content were determined. The pH and soluble solid content did not modify after all treatments. The pressure and CO volume ratio did not influence the FOS content and their chemical profile, however, the temperature increase from 40 to 60 °C increased the nystose and fructofuranosylnystose content. High-temperature thermal processing favored the hydrolysis of 1-kestose and reduced the sucrose content. Regarding beta-ecdysone, its content remained constant after all stabilization treatments demonstrating thus its high chemical stability. Our results demonstrated that supercritical CO technology is a promising technique for the stabilization of FOS-rich beverages since the molecular structures of these fructans were preserved, thus maintaining their prebiotic functionality.

摘要

采用非热和热方法评估超临界 CO 处理对果寡糖(FOS)和其他功能及营养化合物的化学稳定性的影响。由于根水提物中含有大量的短链 FOS,因此将苹果汁进行浓缩,然后使其分别经受不同温度(40 和 60°C)、压力(8 和 21 MPa)和 CO 体积比(20 和 50%)的处理。CO 体积比是根据高压反应釜的总体积来评估的。此外,功能性饮料还在 105°C 下热加工 10 分钟。测定了物理化学性质(pH 值和可溶性固形物含量)、蜕皮甾酮、糖(葡萄糖、果糖和蔗糖)和 FOS(1-蔗果三糖、棉子糖和果糖呋喃果糖基棉子糖)含量。所有处理后,pH 值和可溶性固形物含量均未发生变化。压力和 CO 体积比对 FOS 含量及其化学结构没有影响,但是,温度从 40°C 升高至 60°C 增加了棉子糖和果糖呋喃果糖基棉子糖的含量。高温热加工有利于 1-蔗果三糖的水解,并降低了蔗糖的含量。关于蜕皮甾酮,所有稳定化处理后其含量保持不变,这表明其具有很高的化学稳定性。我们的结果表明,超临界 CO 技术是一种很有前途的富含 FOS 的饮料稳定化技术,因为这些果聚糖的分子结构得以保留,从而保持了其益生元功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/35c7/7504353/3cf00699df8b/molecules-25-03911-g001.jpg

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