Song Nho-Eul, Lee Chan-Mi, Baik Sang-Ho
Department of Food Science and Human Nutrition, and Fermented Food Research Center, Chonbuk National University.
J Gen Appl Microbiol. 2019 Sep 14;65(4):188-196. doi: 10.2323/jgam.2018.09.004. Epub 2019 Feb 15.
Biogenic amines (BAs) are widely present in nearly all fermented foods and beverages, and excess consumption can cause adverse health effects. To prepare BA-free Korean black raspberry wine (BRW), four autochthonous starter yeast strains without hazardous BA synthesis activity were selected and their physiological and biochemical properties were examined. The selected strains were identified as Saccharomyces cerevisiae based on 26S rDNA sequencing and microsatellite analysis. Molecular fingerprinting revealed that isolates were quite different from commercial wine yeast S. cerevisiae (52.4% similarity), but genetically relevant to commercial beer yeasts. The four S. cerevisiae strains produced over 10% ethanol during BRW fermentation. In addition, the fermented BRW with these strains showed higher levels of total flavonoids and similar antioxidant activity compared to the control sample. Potentially hazardous BAs that commonly occur in black raspberry extract (BRE) such as cadaverine, histamine, and spermidine were also not detected in the fermented BRW. Thus, we suggest that our strains are promising fermentation tools to ensure high quality and enhanced functionality in the production of BA-free BRW.
生物胺(BAs)广泛存在于几乎所有发酵食品和饮料中,过量食用会对健康产生不良影响。为了制备无生物胺的韩国黑莓酒(BRW),选择了四种无有害生物胺合成活性的本地起始酵母菌株,并对其生理生化特性进行了研究。基于26S rDNA测序和微卫星分析,将所选菌株鉴定为酿酒酵母。分子指纹图谱显示,分离株与商业葡萄酒酵母酿酒酵母有很大不同(相似度为52.4%),但与商业啤酒酵母有遗传相关性。这四种酿酒酵母菌株在BRW发酵过程中产生了超过10%的乙醇。此外,与对照样品相比,用这些菌株发酵的BRW总黄酮含量更高,抗氧化活性相似。在发酵的BRW中也未检测到黑莓提取物(BRE)中常见的潜在有害生物胺,如尸胺、组胺和亚精胺。因此,我们认为我们的菌株是有前途的发酵工具,可确保在生产无生物胺BRW时保证高质量并增强其功能。
