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腌制雪里蕻中乳酸菌的筛选、鉴定、发酵特性及潜在应用

Screening, Identification, and Fermentation Characteristics of Lactic Acid Bacteria from Pickled Potherb Mustard and Potential Applications.

作者信息

Kong Xiaoxue, Zhang Jiaxin, Shen Hui, Shi Nan, Zhou Hui, Li Yi, Guo Yuxing, Luo Haibo, Yu Lijuan

机构信息

Agro-Products Processing Research Institute, Yunnan Academy of Agricultural Sciences, Kunming 650221, China.

School of Food Science and Pharmaceutical Engineering, Nanjing Normal University, Nanjing 210023, China.

出版信息

Foods. 2025 Apr 21;14(8):1431. doi: 10.3390/foods14081431.

DOI:10.3390/foods14081431
PMID:40282832
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12026729/
Abstract

We identified strains of lactic acid bacteria from fermented potherb mustard that showed excellent fermentation properties. The goal was to identify superior starter cultures that would optimize the traditional fermentation process, reduce fermentation duration, and improve the quality of pickled potherb mustard. Four strains were screened: (LAB1, LAB3) and (LAB2, LAB4). Then, after in vitro tests of tolerance to low pH and salt levels as well as lactic acid production ability, nitrite degradation ability, antibacterial properties, and antioxidant activity, LAB1 and LAB2 were selected as the best strains. Next, these two strains were used as starter cultures for fermenting potherb mustard. Each was inoculated into the fermentation solution. Compared to natural fermentation, both showed beneficial effects, including reducing nitrite content, shortening fermentation time, maintaining the reducing sugar, and increasing the levels of nitrogenous amino acids. Microbial diversity analyses revealed that, prior to fermentation, the predominant microbial communities were and , which primarily originated from the surrounding environment. However, 30 days after inoculation with the two strains, there was a significant increase in the abundance of and , and emerged as the dominant bacterium. Inoculation of LAB1 effectively stabilized the bacterial community of the potherb mustard and significantly enhanced the content of nitrogenous amino acids in the final product, indicating that it is highly suitable as a mono-starter. On the other hand, LAB2 led to reduced nitrite content and facilitated the proliferation of and , indicating that it is an effective mixed starter. Due to its limited effect on acid production, it is not recommended as a mono-starter for pickled mustard production.

摘要

我们从发酵雪里蕻中鉴定出了具有优良发酵特性的乳酸菌菌株。目的是鉴定出优良的发酵剂,以优化传统发酵工艺、缩短发酵时间并提高腌制雪里蕻的品质。筛选出了四株菌株:(LAB1、LAB3)和(LAB2、LAB4)。然后,在对低pH和盐浓度耐受性以及乳酸产生能力、亚硝酸盐降解能力、抗菌性能和抗氧化活性进行体外测试后,LAB1和LAB2被选为最佳菌株。接下来,将这两株菌株用作雪里蕻发酵的发酵剂。将每株菌株接种到发酵液中。与自然发酵相比,两者都显示出有益效果,包括降低亚硝酸盐含量、缩短发酵时间、保持还原糖含量以及增加含氮氨基酸水平。微生物多样性分析表明,在发酵前,主要的微生物群落是 和 ,它们主要源自周围环境。然而,在接种这两株菌株30天后, 和 的丰度显著增加,并且 成为优势细菌。接种LAB1有效地稳定了雪里蕻的细菌群落,并显著提高了最终产品中含氮氨基酸的含量,表明它非常适合作为单一发酵剂。另一方面,LAB2导致亚硝酸盐含量降低,并促进了 和 的增殖,表明它是一种有效的混合发酵剂。由于其对产酸的影响有限,不建议将其作为腌制芥菜生产的单一发酵剂。

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