Preservation of Raw Camel Milk by Lactoperoxidase System Using Hydrogen Peroxide Producing Lactic Acid Bacteria

动物科学期刊(英文) Pub Date : 2020-05-18 DOI:10.4236/ojas.2020.103024

Dakalo Dashe, E. B. Hansen, Mohammed Y. Kurtu, Tesfemariam Berhe, Mitiku Eshetu, Y. Hailu, Amsalu Waktola, Adane Shegaw

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引用次数: 3

Abstract

This study was conducted to investigate the effect of lactic acid bacteria (LAB) activated lactoperoxidase system (LPs) on keeping quality of raw camel milk at room temperature. Camel milk samples were collected from Errer valley, Babile district of eastern Ethiopia. The level of hydrogen peroxide (H2O2) for activation of LPs was optimized using different levels of exogenous H2O2. Strains of LAB (Lactococcus lactis 22333, Weissella confusa 22308, W. confusa 22282, W. confusa 22296, S. Infatarius 22279 and S. lutetiensis 22319) with H2O2 producing properties were evaluated, and W. confusa 22282 was selected as the best strain to produce H2O2. Storage stability of the milk samples was evaluated through the acidification curves, titratable acidity (TA), total bacterial count (TBC) and coliform counts (CC) at storage times of 0, 6, 12, 18, 24 and 48 hours. The LP activity and the inhibitory effect of activated LPs were evaluated by growing E. coli in pasteurized and boiled camel milk samples as contaminating agent. Results indicated that the W. confusa 22282 activated LPs generally showed significantly (P 2O2 producing LAB and exogenous H2O2 activated LPs in pasteurized camel milk significantly reduced the growth of E. coli population compared to non-activated pasteurized milk. Overall, the result of acid production and microbial analysis indicated that the activation of LPs by H2O2 producing LAB (i.e. W. confusa 22282) maintained the storage stability of raw camel milk. Therefore, it can be concluded that the activation of LPs by biological method using H2O2 producing LAB can substitute the chemical activation method of LPs in camel milk.

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过氧化氢产乳酸菌乳酸过氧化物酶体系保存生骆驼奶

本试验旨在研究乳酸菌(LAB)激活的乳酸过氧化物酶系统(LPs)对常温下原驼奶品质的影响。骆驼奶样本采集自埃塞俄比亚东部Babile地区的Errer河谷。利用不同水平的外源H2O2，优化过氧化氢(H2O2)对LPs的激活作用。对具有产H2O2能力的乳酸菌(Lactococcus lactis 22333、Weissella confusa 22308、W. confusa 22282、W. confusa 22296、S. Infatarius 22279和S. lutetiensis 22319)进行了评价，最终选择W. confusa 22282为产H2O2能力最好的菌株。在贮藏0、6、12、18、24和48 h时，通过酸化曲线、可滴定酸度(TA)、细菌总数(TBC)和大肠菌群计数(CC)评价乳样的贮存稳定性。以大肠杆菌为污染剂，在经巴氏消毒和煮沸的骆驼奶样品中培养LP活性和抑菌效果。结果表明，与未激活的巴氏奶相比，经双歧杆菌22282活化的LPs普遍表现出显著的产p2o2的LAB，外源H2O2活化的LPs显著降低了大肠杆菌的生长。总的来说，产酸和微生物分析结果表明，产H2O2的乳酸菌(即W. confusa 22282)对LPs的激活维持了原料骆驼奶的储存稳定性。由此可见，利用产H2O2的乳酸菌生物法活化LPs可替代化学活化骆驼奶中的LPs。

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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动物科学期刊(英文)

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