冷冻和冷冻干燥用于保存和再利用整个奶酪微生物群落的研究

Foods Pub Date : 2024-06-08 DOI:10.3390/foods13121809
Wenfan Cao, S. Passot, Françoise Irlinger, F. Fonseca
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引用次数: 0

摘要

保存从传统奶酪制作过程中获得的微生物生态系统对于保护奶酪微生物群落的生物多样性,从而确保传统奶酪的高品质风味至关重要。目前还很少有人提出长期储存微生物群落的方案。这项工作旨在开发保存方法,以稳定涂抹熟化奶酪中的整个微生物群落,而无需进行繁殖或分离。简化的微生物群落能够再现奶酪成熟过程中的新陈代谢模式,被用于三种独立的奶酪生产中。在成熟步骤之前和之后采集奶酪样品,与麦芽糊精或生理盐水混合,并在不同的稳定条件下进行处理,包括冷冻和冷冻干燥,然后储存 1 个月。微生物存活率采用菌落形成单位测定法进行量化。差示扫描量热法用于将样品中发生的物理事件与微生物的储存稳定性联系起来。-80℃冷冻导致的可培养性损失最小(<0.8 log unit),其次是-20℃冷冻和冷冻干燥。成熟细菌似乎是群落中最敏感的微生物。此外,使用稳定性最好的群落成功生产出的奶酪表明,有可能保存和重复使用整个微生物群落。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Freezing and Freeze-Drying for Preserving and Re-Using a Whole Microbial Cheese Community
Preserving microbial ecosystems obtained from traditional cheese-making processes is crucial to safeguarding the biodiversity of microbial cheese communities and thus ensuring that the high flavor quality of traditional cheeses is maintained. Few protocols have been proposed for the long-term storage of microbial consortia. This work aimed to develop preservation methods to stabilize the entire microbial community in smear-ripened cheese without multiplication or isolation. A simplified microbial community, capable of reproducing the metabolic pattern of cheese maturation, was used in three independent cheese productions. Cheese samples were taken before and after the ripening step, mixed with maltodextrin or saline solution, and subjected to different stabilization conditions including freezing and freeze-drying, followed by 1 month of storage. Microbial survival was quantified using the colony-forming unit assay. Differential scanning calorimetry was used to relate the physical events occurring within the samples to the microbial storage stability. Freezing at −80 °C resulted in the lowest loss of culturability (<0.8 log unit), followed by freezing at −20 °C and freeze-drying. The ripening bacteria appeared as the most sensitive microorganisms within the community. Moreover, a successful cheese production using the best-stabilized community showed the possibility of preserving and re-using an entire microbial community of interest.
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