Evaluation of the proteolytic activity of new cryoresistant lactobacillus strains

S. Kitaevskaya, V. Ponomarev, O. Reshetnik
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引用次数: 2

Abstract

The search for new functionally active strains of lactic acid bacteria, together with the development of domestic competitive starter cultures on their basis, are important directions of contemporary food biotechnology. Proteolytic activity represents one of the criteria for selecting lactic acid bacteria strains for their subsequent use in food production and largely determines the quality characteristics of the finished product. The present study aims to evaluate the proteolytic activity of 15 new cryoresistant strains of Lactobacillus genus lactic acid bacteria having a number of functional and technological properties. According to the results obtained, all strains demonstrated higher proteolytic activity in alkaline media and those close to neutral (pH = 6.5). In slightly acidic media, the strains under study showed minimal values of proteolytic activity, except for L. fermentum 12 and L. plantarum 21 strains. Strains L. casei 32, L. casei 36, L. fermentum 10, and L. acidophilum 9 (48.9–52.3 µg tyrosine/mL·min) showed the maximum proteolytic activity. The minimal proteolytic activity was characteristic of L. fermentum 12, L. fermentum 24, and L. plantarum 1 (27.7–28.9 µg tyrosine/mL·min). The studied paramenter depends on the conditions of proteolysis (substrate, medium pH) and represents an individual strain characteristic independent of the lactobacillus species membership. According to the results obtained, L. casei 32, L. casei 36, and L. fermentum 10 cryoresistant strains, manifesting high proteolytic activity and effectively affecting various protein substrates (casein, albumin, haemoglobin) in a wide range of medium pH values, can be recommended for inclusion in the composition of starter cultures for the production of fermented food products.
耐低温乳酸菌新菌株的蛋白水解活性评价
寻找具有功能活性的乳酸菌新菌株,并在此基础上开发具有竞争力的国产发酵剂,是当代食品生物技术发展的重要方向。蛋白水解活性是选择乳酸菌菌株用于食品生产的标准之一,在很大程度上决定了成品的质量特性。本研究旨在评价15株具有多种功能和工艺特性的乳酸菌属乳酸菌新品种的蛋白水解活性。结果表明,所有菌株在碱性培养基和接近中性(pH = 6.5)的培养基中均表现出较高的蛋白水解活性。在微酸性培养基中,除发酵乳杆菌12和植物乳杆菌21菌株外,其余菌株的蛋白水解活性均极低。菌株L. casei 32、L. casei 36、L. fermentum 10和L. acidophilum 9(48.9 ~ 52.3µg酪氨酸/mL·min)的蛋白水解活性最高。L. fermentum 12、L. fermentum 24和L. plantarum 1的蛋白水解活性最低(27.7 ~ 28.9µg酪氨酸/mL·min)。所研究的参数取决于蛋白质水解的条件(底物,培养基pH),并代表独立于乳酸菌种类成员的单个菌株特征。根据所获得的结果,干酪乳杆菌32、干酪乳杆菌36和发酵乳杆菌10耐低温菌株表现出高蛋白水解活性,并在广泛的培养基pH值范围内有效影响各种蛋白质底物(酪蛋白、白蛋白、血红蛋白),可以推荐用于发酵食品生产的发酵剂组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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