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增强即溶冰茶中南非路易波士茶(Aspalathus linearis)中叶因的稳定性:纳米乳化和饮料成分(柠檬酸和抗坏血酸)的作用。

Enhancing aspalathin stability in rooibos (Aspalathus linearis) ready-to-drink iced teas during storage: the role of nano-emulsification and beverage ingredients, citric and ascorbic acids.

机构信息

Agricultural Research Council (Infruitec-Nietvoorbij Institute), Post-Harvest and Wine Technology Division, Private Bag X5026, Stellenbosch 7599, South Africa.

出版信息

J Sci Food Agric. 2012 Jan 30;92(2):274-82. doi: 10.1002/jsfa.4571. Epub 2011 Jul 21.

DOI:10.1002/jsfa.4571
PMID:21780136
Abstract

BACKGROUND

The effects of citric and ascorbic acids on the stability of aspalathin in rooibos (Aspalathus linearis) ready-to-drink (RTD) formulations containing fermented rooibos extract (FR), aspalathin-enriched green rooibos extract (GR) and aspalathin-enriched green rooibos extract ascorbic acid solubilisate (GR-solubilisate) were investigated during storage (12 weeks at 25 °C).

RESULTS

Storage of iced tea formulations containing FR and GR extracts reduced their flavonoid content. The aspalathin content of FR iced tea without citric or ascorbic acid was reduced to undetectable levels by week 8 of storage. Addition of citric acid resulted in improved stability of aspalathin, but ascorbic acid did not impart additional stability. Iso-orientin and orientin were less affected than aspalathin, presumably owing to partial conversion of aspalathin to these flavones. Similar results were obtained for GR iced tea formulations. Improved stability of aspalathin was noted in iced tea containing GR-solubilisate with or without citric acid. Lower pH was shown to favour stability, especially for fermented rooibos iced teas.

CONCLUSION

Citric and ascorbic acids contribute to the stability of rooibos flavonoids during storage. Differences in stability between formulations are not due to pH differences but may be related to the matrix.

摘要

背景

研究了柠檬酸和抗坏血酸对含发酵红灌木提取物(FR)、富含 aspalathin 的绿灌木提取物(GR)和富含 aspalathin 的绿灌木提取物抗坏血酸可溶物(GR-solubilisate)的即饮茶配方中 aspalathin 在 rooibos(Aspalathus linearis)即饮(RTD)配方中的稳定性的影响,这些配方在储存过程中(25°C 下储存 12 周)。

结果

含 FR 和 GR 提取物的冰茶配方的储存会降低其类黄酮含量。在储存的第 8 周,不含柠檬酸或抗坏血酸的 FR 冰茶中的 aspalathin 含量降低到无法检测到的水平。添加柠檬酸可提高 aspalathin 的稳定性,但抗坏血酸不能提供额外的稳定性。异牡荆苷和牡荆苷的稳定性比 aspalathin 差,可能是由于部分 aspalathin 转化为这些黄酮。GR 冰茶配方也得到了类似的结果。在含有 GR-solubilisate 的冰茶中添加柠檬酸或不添加柠檬酸,均可提高 aspalathin 的稳定性。较低的 pH 值有利于稳定性,尤其是对于发酵的红灌木冰茶。

结论

柠檬酸和抗坏血酸有助于红灌木类黄酮在储存过程中的稳定性。配方之间的稳定性差异不是由于 pH 值的差异,而是可能与基质有关。

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