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中国精品科技期刊2020
聂攀,吕玮,陆军,等. 利用Lactobacillus kisonensis发酵藜麦-黑燕麦复合谷物富集多酚及黄酮的工艺优化[J]. 华体会体育,2023,44(1):208−216. doi: 10.13386/j.issn1002-0306.2022030081.
引用本文: 聂攀,吕玮,陆军,等. 利用Lactobacillus kisonensis发酵藜麦-黑燕麦复合谷物富集多酚及黄酮的工艺优化[J]. 华体会体育,2023,44(1):208−216. doi: 10.13386/j.issn1002-0306.2022030081.
NIE Pan, LÜ Wei, LU Jun, et al. Optimization of Polyphenols and Flavonoids Enrichment Process of Quinoa-Black Oat Complexed Grain Fermented by Lactobacillus kisonensis[J]. Science and Technology of Food Industry, 2023, 44(1): 208−216. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022030081.
Citation: NIE Pan, LÜ Wei, LU Jun, et al. Optimization of Polyphenols and Flavonoids Enrichment Process of Quinoa-Black Oat Complexed Grain Fermented by Lactobacillus kisonensis[J]. Science and Technology of Food Industry, 2023, 44(1): 208−216. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022030081.

利用Lactobacillus kisonensis发酵藜麦-黑燕麦复合谷物富集多酚及黄酮的工艺优化

Optimization of Polyphenols and Flavonoids Enrichment Process of Quinoa-Black Oat Complexed Grain Fermented by Lactobacillus kisonensis

  • 摘要: 本研究利用植物乳杆菌(Lactobacillus kisonensis,JCM15041)发酵藜麦-黑燕麦复合谷物,以多酚和黄酮含量为响应值,在利用单因素实验明确原料比(藜麦:黑燕麦)、液料比、接种量和发酵时间等发酵工艺参数优化范围的基础上,利用响应面试验(四因素三水平),建立了可有效富集多酚及黄酮的藜麦-黑燕麦复合谷物优化发酵工艺。结果表明,原料比(藜麦:黑燕麦)、液料比、接种量和发酵时间对发酵后多酚和黄酮含量均有显著影响;藜麦-黑燕麦复合谷物发酵优化工艺条件为:原料比(藜麦:黑燕麦)1:3.4(g/g)、液料比7.5:1(mL/g)、接种量4.9%、发酵时间36.5 h,且在该发酵工艺条件下多酚和黄酮含量分别达到295.3和256.3 mg/100 g,均显著高于未发酵复合谷物(多酚和黄酮含量分别为216.2和202.4 mg/100 g)(P<0.05),也显著高于藜麦和黑燕麦单独发酵(多酚含量分别为256.7和255.3 mg/100 g;黄酮含量分别为209.0和163.3 mg/100 g)(P<0.05)。与单一谷物发酵相比,利用植物乳杆菌发酵藜麦-黑燕麦复合谷物可更有利于多酚和黄酮类功能性成分的富集,发酵产物可用于功能性谷物食品的开发。

     

    Abstract: In present study, quinoa and black oat were complexed to fermented with Lactobacillus kisonensis (JCM15041) based on the contents of polyphenols and flavonoids as response values. To optimize the fermentation process, the single factor experiment was used to obtain the optimized range of fermentation parameters such as raw material ratio (quinoa: black oat), liquid to material ratio, inoculation amount and fermentation time, then the response surface experiment (four-factors and three-levels) was used to establish optimization fermentation condition. Our results showed that raw material ratio (quinoa: black oat), liquid-solid ratio, inoculation amount and fermentation time significantly affected the enrichment of polyphenols and flavonoids in complexed grain fermentation. The optimal fermentation conditions were as follows: raw material ratio (quinoa: black oat) 1:3.4 (g/g), liquid-solid ratio 7.5:1 (mL/g), inoculation amount 4.9%, fermentation time 36.5 h. Under these fermentation conditions, the contents of polyphenols and flavonoids were 295.3 and 256.3 mg/100 g, respectively, which were significantly higher than those of unfermented combined grain group (the contents of polyphenols and flavonoids were 216.2 and 202.4 mg/100 g, respectively) (P<0.05), and also higher than those of quinoa or black oat fermentation alone groups (polyphenols contents were 256.7 and 255.3 mg/100 g respectively, flavonoids content were 209.0 and 163.3 mg/100 g, respectively) (P<0.05). Compared with single grain fermentation, the fermentation of quinoa-black oat complexed grain with Lactobacillus kisonensis was more effective to the enrichment of polyphenols and flavonoids, and the fermentation products could be used for the development of functional grain food.

     

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