原料乳中耐热菌的鉴定与控制

doi:10.7506/rykxyjs1671-5187-20241217-108

摘要/Abstract

摘要： 随着人们对液态乳需求量的增加，确保其品质安全尤为重要，而耐热性微生物的存在则是导致液态乳产生品质缺陷不可忽视的原因之一。以原料乳中分离的耐热性微生物为研究对象，采用高通量测序技术探究原料乳微生物多样性，同时采用纯培养和16S rDNA测序对耐热性微生物进行分离鉴定，分析其生物多样性和形态特征。随后对鉴定得到的耐热性微生物进行反接实验，模拟正常灭菌乳和脱脂乳被该微生物污染后产品的变质过程，并进行微生物的耐受性研究，以期为状态异常的乳制品排查及管控提供思路。结果表明：原料乳中耐热性微生物主要为芽孢杆菌属，通过革兰氏染色，主要发现3 种菌落形态；将不同类型芽孢杆菌接种至灭菌乳后出现颗粒析出和分层现象；接种至脱脂牛乳后出现色泽变黄、味道发苦现象；芽孢杆菌对温度的耐受性强，对过氧乙酸的耐受性差，企业可使用一定质量浓度过氧乙酸类消毒剂配合清洗程序有效杀灭生产线上残留的耐热性微生物。

关键词: 原料乳；耐热性微生物；颗粒析出；过氧乙酸；高通量测序

Abstract: With the increasing demand for liquid milk, it is particularly important to ensure its quality and safety. The presence of heat-resistant microorganisms in liquid milk is a non-negligible cause of its quality defects. Therefore, this study employed high-throughput sequencing to explore the microbial diversity of raw milk. Heat-resistant microorganisms were isolated in pure culture and identified by 16S rDNA sequencing and their biological diversity and morphological characteristics were analyzed. Subsequently, the identified bacteria were inoculated into normal sterilized milk and skim milk to simulate the spoilage process of products contaminated by them, and their tolerance was examined to provide ideas to screen and control abnormal milk products. The results showed that the heat-resistant microorganisms in raw milk are mainly of the genus Bacillus, and three colony forms were found by Gram staining. Particle precipitation and delamination after inoculation of different types of Bacillus into sterilized milk; yellow color and bitter taste after inoculation into skim milk. All three Bacillus species had strong temperature tolerance but poor tolerance to peracetic acid. Milk enterprises can combine peracetic acid-based disinfectants with Clean-in-Place cleaning to effectively kill residual heat-resistant microorganisms on the production line.

Key words: raw milk; heat-resistant microorganisms; particle precipitation; peracetic acid; high-throughput sequencing

中图分类号:

TS252.7

李飞，张彦辉，夏兆田，陈克良，岳晓安，屈雅莉. 原料乳中耐热菌的鉴定与控制[J]. 乳业科学与技术, 2025, 48(5): 33-39.

LI Fei, ZHANG Yanhui, XIA Zhaotian, CHEN Keliang, YUE Xiao’an, QU Yali. Identification and Control of Heat-Resistant Bacteria in Raw Milk[J]. Journal of Dairy Science and Technology, 2025, 48(5): 33-39.

[1]	屈雅莉，张彦辉，夏兆田，陈克良，周婷，楚珍珍，李飞. 分离自生牛乳的一株高产蛋白酶蜡样芽孢杆菌特性[J]. 乳业科学与技术, 2025, 48(3): 55-59.
[2]	刘璐，顾晟琳，夏亚文. 微生物法测定乳粉中VB6含量的不确定度评定[J]. 乳业科学与技术, 2025, 48(2): 30-34.
[3]	毕婷婷，魏可燕，胡明燕，田洪芸，王冠群，王文特，范丽，张海红，提静靓. 婴幼儿配方乳粉氧化机理及其过氧化值检测方法研究进展[J]. 乳业科学与技术, 2025, 48(2): 54-59.
[4]	黄建辉，张彦辉，张耀广，赵翠琴. 牛乳中β-乳球蛋白的中红外快速检测方法建立[J]. 乳业科学与技术, 2025, 48(1): 14-19.
[5]	李娇，李巧莲，周长民，袁帅，罗景阳，陈娇，丁婷. 超高效液相色谱-串联质谱法同时测定婴幼儿配方乳粉中5 种脂溶性维生素[J]. 乳业科学与技术, 2025, 48(1): 20-23.
[6]	王胜杰，梁琳. 气相色谱-质谱法测定婴幼儿配方乳粉中3-氯-1,2-丙二醇酯和缩水甘油酯[J]. 乳业科学与技术, 2024, 47(6): 31-36.
[7]	徐志鹏，泮秋立，肖晶，张爽，宋家升，王骏. 胶体金免疫层析试纸条鉴别乳品中牛、羊源性成分的性能评价[J]. 乳业科学与技术, 2024, 47(6): 37-42.
[8]	杨琦，焦昕哲，孟虎，房忠芳，张耀武，赵丽莉，张倩婷. QuEChERS处理-超高效液相色谱-串联质谱法快速检测鲜乳中54 种农药残留[J]. 乳业科学与技术, 2024, 47(6): 43-50.
[9]	白晓云，马晓冲，齐晓茹，苏运聪，张耀广，李飞. 固相萃取-气相色谱-质谱法测定牛乳中54 种农药残留[J]. 乳业科学与技术, 2024, 47(5): 12-19.
[10]	周帅康，胡连霞，王孟阳，李苗，卢涵，王世杰. 基于实时荧光定量环介导等温扩增技术快速检测发酵乳中嗜热链球菌和保加利亚乳杆菌[J]. 乳业科学与技术, 2024, 47(3): 9-15.
[11]	梁建英，唐烁，刘丽君，黄晓燕，岳虹，胡文慧，李翠枝. 乳及乳制品中蛋白酶检测技术研究进展[J]. 乳业科学与技术, 2024, 47(3): 80-85.
[12]	祁兵，陈柔含，杨晓君，江春铃，马颖清，邓波. 基于生物芯片技术的生乳中兽药检测方法验证及其应用[J]. 乳业科学与技术, 2024, 47(2): 42-48.
[13]	刘予煊，孟根花，蔺婷娟，郭瑞芳. 婴幼儿配方乳粉中1,2-丙二醇检测方法的优化[J]. 乳业科学与技术, 2024, 47(2): 49-55.
[14]	王海涛, 沈潇, 姚凌云, 孙敏, 王化田, 冯涛. 采用GC×GC-TOFMS分析3 种脂肪含量牛乳中挥发性化合物[J]. 乳业科学与技术, 2024, 47(1): 26-32.
[15]	崔苏霞. 超高效液相色谱法测定乳粉中烟酰胺含量的不确定度评定[J]. 乳业科学与技术, 2024, 47(1): 33-37.

原料乳中耐热菌的鉴定与控制

Identification and Control of Heat-Resistant Bacteria in Raw Milk

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics