摘要
具有高灵敏度,高选择性特点的表面增强拉曼散射(SERS)与免疫学中的特异吸附机理相结合形成的SERS标记免疫检测技术具有很大的研究及应用价值。文章重点研究了关于SERS标记免疫检测的再生性问题,力求增加此技术的循环利用价值。实验采用甘氨酸-HCl生物缓冲体系对三明治结构(固相抗体-抗原-标记免疫金溶胶)进行洗脱,通过酸碱度的改变,促使抗体抗原复合物发生解离。实验结果表明,洗脱24h后,固相抗体上连接的抗原及标记免疫溶胶能得到很好的去除,去除后再次组装三明治结构,仍能通过对标记分子的识别进行SERS标记免疫检测。在此基础上还研究了此方法的稳定性与重复使用次数,发现其具有较好的稳定性,重复使用次数可达10次左右。
Labelled immunoassay by surface enhanced Raman scattering(SERS) has great research and application value. It combines SERS which has the high sensitivity and high selectivity with specific adsorption in immunology. The present paper mainly studies the regeneration about SERS labelled immunoassay, striving to develop the recycling value of it. The authors used glycine-HCl eluent for the sandwich structure including solid matrix antibody, antigen and labelled immuno-gold colloids, then the authors had got expected result. The complex of antibody and antigen would be separated by changing the pH scale. It could elute the most antigen and the labelled immuno-gold colloids. Also the authors could assemble it again and distinguish the characteristic SERS spectrum of the reporter molecules. Under this condition, we researched the stability and reusing of this technology. The authors found that it has better stability and it retained activity after 10 recycles of applications.
出处
《光谱学与光谱分析》
SCIE
EI
CAS
CSCD
北大核心
2010年第7期1785-1788,共4页
Spectroscopy and Spectral Analysis
基金
国家自然科学基金项目(20373046
20573076)资助
关键词
标记免疫检测
表面增强拉曼散射
再生性
Labelled immunoassay
Surface enhanced Raman scattering
Regeneration
