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细胞包膜蛋白酶 PrtS 在酸奶发酵剂开发中的作用的技术和基因组分析。

Technological and Genomic Analysis of Roles of the Cell-Envelope Protease PrtS in Yoghurt Starter Development.

机构信息

Key Laboratory of Dairy Science, Ministry of Education, Food College, Northeast Agricultural University, Harbin 150030, China.

Food Science and Nutrition Unit, Department of Animal Science, Faculty of Agriculture, University of Benin, Benin City PMB 1154, Nigeria.

出版信息

Int J Mol Sci. 2018 Apr 3;19(4):1068. doi: 10.3390/ijms19041068.

DOI:10.3390/ijms19041068
PMID:29614042
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5979370/
Abstract

The cell-envelope protease PrtS was proved to be efficient in optimal bacterial growth and fast acidification in pure culture, while its positive effect on the performance of mixed-cultures in milk fermentation was not defined. The aim was to analyze effects of the PrtS on the symbiosis between strains during yoghurt production and cold storage. Two strains, KLDS3.1012 and KLDS SM, and two different proteolytic strains of subsp. , L7 and L12, were used. Technological properties (viability, acid production, and proteolysis) were determined. Comparative genomics was used to analyze the proteolytic system (cell-envelope protease, transport system, intracellular peptidase) of strains. . KLDS SM possesses an intact gene encoding PrtS (A9497_00420), which was not found in the genome of KLDS3.1012. This gene is the main difference in the proteolytic system between the two genomes. PrtS endowed KLDS SM high levels of viability during fermentation and cold storage. When combined with a weaker lactobacillus strain during fermentation, the acceleration of acid production of mixed-culture by KLDS SM would start at an earlier time. KLDS SM increased the post-acidification of yoghurts during cold storage, but the pH was steadily maintained during 14-28 days. Results suggest that strains of with strong proteolytic ability could be used in a wide range of dairy production. The present study provided data for yoghurt starter development from the point of view of proteolysis.

摘要

细胞包膜蛋白酶 PrtS 已被证明在纯培养中能有效地促进细菌最佳生长和快速酸化,但其对牛奶发酵中混合培养性能的积极影响尚未确定。本研究旨在分析 PrtS 对酸奶生产和冷藏过程中菌株共生的影响。使用了两株菌 KLDS3.1012 和 KLDS SM,以及两个不同的 subsp. 蛋白酶菌株 L7 和 L12。测定了技术特性(活力、产酸和蛋白水解)。比较基因组学用于分析菌株的蛋白水解系统(细胞包膜蛋白酶、转运系统、细胞内肽酶)。KLDS SM 拥有完整的编码 PrtS(A9497_00420)的基因,而 KLDS3.1012 的基因组中没有发现该基因。该基因是两个基因组中蛋白水解系统的主要差异。PrtS 赋予 KLDS SM 在发酵和冷藏过程中高活力。当与发酵过程中较弱的乳杆菌菌株结合时,KLDS SM 混合培养物的产酸加速将更早开始。KLDS SM 增加了酸奶在冷藏过程中的后酸化,但在 14-28 天内 pH 值保持稳定。结果表明,具有较强蛋白水解能力的 菌株可广泛应用于乳制品生产。本研究从蛋白水解的角度为酸奶发酵剂的开发提供了数据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9cba/5979370/478b3d621056/ijms-19-01068-g007.jpg
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