食品科学 ›› 2017, Vol. 38 ›› Issue (13): 143-149.doi: 10.7506/spkx1002-6630-201713024

• 基础研究 • 上一篇    下一篇

3种植物挥发油抑制食源性细菌生长活性成分及机理

潘旭迟,许剑锋,傅昱晟,吕留庄,于晓巍   

  1. 1.上海海洋大学食品学院,食品科学与工程国家级实验教学示范中心,上海水产品加工及贮藏工程技术研究中心,上海 201306;2.上海市第六人民医院东院,上海 201306
  • 出版日期:2017-07-15 发布日期:2017-07-11

Antibacterial Ingredients and Mechanism of Volatile Oils from Three Kinds of Plants against Foodborne Bacteria

PAN Xuchi, XU Jianfeng, FU Yusheng, Lü Liuzhuang, YU Xiaowei   

  1. 1. National Experimental Teaching Demonstration Center for Food Science and Engineering, Shanghai Engineering Research Center of Aquatic-Product Processing and Preservation, College of Food Science and Technology, Shanghai Ocean University,Shanghai 201306, China; 2. Sixth People’s Hospital East Campus, Shanghai 201306, China
  • Online:2017-07-15 Published:2017-07-11

摘要: 采用无水乙醇浸法提取柠檬花、茶树叶、留兰香叶挥发油,用抑菌圈法及微量肉汤稀释法测定挥发油对大肠杆菌(Escherichia coli)、沙门氏菌(Salmonellas enteritidis)、金黄色葡萄球菌(Staphylococcus aureus)和李斯特菌(Listeria monocytogenes)的抑菌效果,并通过气相色谱-质谱联用分析其有效成分,抑菌机理通过实验菌菌液的电导率及扫描电子显微镜验证。结果表明:柠檬油、茶树油中有效抑菌成分分别为柠檬烯、1,8-桉叶素,其含量分别为65.50%、48.67%,留兰香油中有效抑菌成分为柠檬烯与左旋香芹酮,其含量分别为16.33%、35.67%。其中抑菌广谱性及抑菌效果最好的为留兰香油及其有效活性成分左旋香芹酮。实验中的有效活性物质可能是通过改变实验菌细胞膜的通透性,且可使细菌细胞发生皱缩破裂,以此起到抑菌及杀菌的作用。

关键词: 抑菌, 大肠杆菌, 金黄色葡萄球菌, 沙门氏菌, 扫描电子显微镜, 气相色谱-质谱

Abstract: The antibacterial effects of the volatile oils extracted with absolute ethanol from lemon flowers (Citrus limon), tea tree leaves (Melaleuca alternifolia) and spearmint leaves (Mentha spicata L.) against Escherichia coli, Staphylococcus aureus, Salmonellas enteritidis and Listeria monocytogenes were investigated in this study, and their active ingredients were identified by gas chromatography-mass spectrometry (GC-MS). Meanwhile, the antibacterial mechanism was evaluated by determining the electric conductivity of bacterial suspensions and observing bacterial cells by scanning electron spectroscopy (SEM). The active ingredients were identified as cinene (65.50%) in lemon oil, 1,8-cineole (48.67%) in tea tree oil, and cinene (16.33%) and L(-)-carvone (35.67%) in spearmint oil. Among these, spearmint oil and its L(-)-carvone had the broadest antibacterial spectrum and strongest antibacterial activity. SEM examination showed that the bacterial cells were crumpled and ruptured after active ingredient treatment, demonstrating these substances could effectively suppress bacterial growth and reproduction by changing cell membrane permeability.

Key words: antibacterial effect, Escherichia coli, Staphylococcus aureus, Salmonellas enteritidis, scanning electron microscope (SEM), gas chromatography-mass spectrometry (GC-MS)

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