摘要
激光拉曼光谱技术近年来已成为研究生物分子结构常用的光谱手段. 尤其在研究水溶液中蛋白质的结构和构象方面发挥了重要作用. 然而, 常规拉曼光谱的信号强度很低, 限制了其在各个领域中的应用. 表面增强拉曼光谱(SERS)[1]和表面增强共振拉曼光谱(SERRS)技术可使信号增强6~10个数量级[2], 尤其是SERS技术已发展到检测单分子的水平[3~5], 更为其在生物方面的应用开拓了新的局面. 目前, 蛋白、抗体、 DNA和RNA等生物分子的标记方法种类繁多, 其中染料分子、同位素和酶等标记方法较为成熟. 随着纳米粒子合成技术的发展, 纳米粒子用于生物分子标记已成为研究的热点. Nie等[6]和Alivisatos等[7]用CdSe和CdS等半导体纳米晶实现在动物细胞核膜和肌动蛋白纤维的荧光标记. 但纳米晶的荧光谱带较宽, 多组标记难度较大. Porter等[8]将纳米粒子标记与SERS谱相结合应用于免疫反应.
A spectral measurement combined with nanoparticle labeling and SERS technique is described. The gold nanoparticles not only modified by the mouse monoclonal antibody agaist Hepatitis B surface antigen [IgG(H)] but also labeled by the p-mercaptobenzoic acid (MBA) were used as a probe. The immunogold nanoparticles specially react with the antibody against IgG(H)[anti IgG(H)] which was immobilzed on the quartz substrates. The identification between the immunogold colloids and the anti IgG(H) was examined by surface enhanced Raman specta(SERS) of MBA after and before silver staining and confirmed by UV-Vis absorption spectra.
出处
《高等学校化学学报》
SCIE
EI
CAS
CSCD
北大核心
2003年第5期900-902,共3页
Chemical Journal of Chinese Universities
基金
国家自然科学基金(批准号:29975011
20273022)
