基于SERS技术的食源性致病菌芽孢拉曼光谱特征结构分析及快速识别  被引量：4

作　　者：刘世杰 朱瑶迪 李苗云[1,2] 赵改名 赵莉君[1,2] 马阳阳 王娜[1] LIU Shi-jie;ZHU Yao-di;LI Miao-yun;ZHAO Gai-ming;ZHAO Li-jun;MA Yang-yang;WANG Na(College of Food Science and Technology,Henan Agricultural University,Zhengzhou 450000,China;International Joint Laboratory of Meat Processing and Safety in Henan Province,Zhengzhou 450000,China)

机构地区：[1]河南农业大学食品科学技术学院,河南郑州450000 [2]河南省肉品加工与安全国际联合实验室,河南郑州450000

出　　处：《光谱学与光谱分析》2022年第9期2774-2780,共7页Spectroscopy and Spectral Analysis

基　　金：国家“十三五”重点研发计划项目(2019YF1605700);河南省杰青项目(212300410008);基于银钠米种子介导二次生长自组装SERS基底关键技术研究及应用(22A550013);河南省重点研发与推广专项(科技攻关)项目(202102110141);国家自然科学基金项目(31801671);国家现代农业(肉牛牦牛)产业技术体系建设专项(CARS-37);河南农业大学科技创新基金项目(KJCX2020A17)资助。

摘　　要：为了探究食源性致病菌芽孢的拉曼特征指纹图谱,实现快速识别,该研究以产气荚膜梭菌(C.perfringens)、艰难梭菌(C.difficile)和蜡样芽孢杆菌(B.cereus)的芽孢为研究对象,以柠檬酸钠还原法制备的AgNPs溶胶为基底材料,用SERS技术对芽孢进行拉曼光谱检测,解析食源性致病菌芽孢的分子结构、不同芽孢之间的异同之处。将3种食源性致病菌芽孢的SERS光谱与主成分分析(PCA)和系统聚类分析(HCA)相结合并进行对比分析,实现不同种属食源性致病菌芽孢的定性识别。结果表明,不同食源性致病菌芽孢的SERS光谱的特异性和重现性良好。芽孢光谱中Ca^(2+)-DPA的拉曼振动峰数量和峰强度占主要地位,其拉曼振动峰位置在657~663,818~820,1017,1389~1393,1441~1449和1572~1576 cm^(-1)波段。C.difficile spores SERS光谱中Ca^(2+)-DPA的六个特征峰峰强度均高于C.perfringens spores和B.cereus spores,C.perfringens spores次之。Ca^(2+)-DPA在1017 cm^(-1)(Ca^(2+)-DPA)处拉曼峰强度在3种芽孢的SERS光谱中均最高且差异明显,是Ca^(2+)-DPA的主要特征峰,也是3种芽孢的主要特征峰。此外,C.perfringens spores在936 cm^(-1)(磷脂N—C拉伸)、1294 cm^(-1)(脂质中的CH_(2)变形振动)、1609 cm^(-1)(蛋白质中的酪氨酸)和1649 cm^(-1)(蛋白质中的酰胺I)显示特有拉曼振动峰;C.difficile spores在890 cm^(-1)(═C-O-C═拉伸)显示特有拉曼振动峰。PCA分析结果显示PC1和PC2方差贡献率分别为51.1%和39.7%,累积贡献率达90.8%,可以将所有样本有效区分。HCA分析可以看出3种芽孢的SERS光谱被分为三个聚类,3种芽孢各自聚类无交叉干扰。结合多元统计分析不仅有效实现了3种芽孢之间的区分,也实现了梭菌属芽孢和杆菌属芽孢的区分,为食品安全控制提供有效手段。In order to explore the Raman fingerprint of food-borne pathogenic bacteria spores for rapid identification.In this study,the spores of C.perfringens,C.difficile and B.cereus were used as the research objects.The SERS technology of AgNPs synthesized by the sodium citrate reduction method was used to detect the Raman spectroscopy of food-borne pathogenic bacteria spores and analyze the similarities or differences among different spores.The SERS spectra of three kinds of food-borne pathogenic bacteria spores were combined with principal component analysis(PCA)and hierarchical cluster analysis(HCA)for comparative analysis to identify different species of food-borne pathogenic bacteria spores.The results showed that the SERS spectra of different food-borne pathogen spores had sufficient specificity and reproducibility.In the SERS spectra of spores,the number and intensity of Raman vibration peaks of Ca^(2+)-DPA were dominant,and the Raman vibration peaks were located at 657~663,818~820,1017,1389~1393,1441~1449 and 1572~1576 cm^(-1).The intensity of six characteristic peaks of Ca^(2+)-DPA in SERS spectra of C.difficile spores were higher than that of C.perfringens spores and B.cereus spores,followed by C.perfringens spores.The Raman peak intensity of Ca^(2+)-DPA at 1017 cm^(-1)(Ca^(2+)-DPA)of the three spores was the highest,and the difference was noticeable,which was the main characteristic peak of Ca^(2+)-DPA and the main characteristic peak of the three spores.In addition,C.perfringens spores showed unique Raman peaks at 936 cm^(-1)(N—C stretching of phospholipid),1294 cm^(-1)(CH_(2) deformation vibration of lipid),1609 cm^(-1)(tyrosine of protein)and 1649 cm^(-1)(amideⅠof protein).C.difficile spores showed unique Raman peaks at 890 cm^(-1)(═C-O-C═stretching).PCA analysis showed that the variance contribution rates of PC1 and PC2 were 51.10%and 39.70%,respectively,and the cumulative contribution rate was 90.8%,which could effectively distinguish all samples.HCA analysis indicated that the SERS spectra of th

关 键 词：食源性致病菌芽孢 表面增强拉曼光谱 AGNPS 光谱解析 快速识别 

分 类 号：O657.3[理学—分析化学]