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	蛋白质微阵列SPR实时相位检测
	余兴龙 ; 魏星 ; 王鼎新 ; 定翔 ; 廖玮 ; 赵新生 ; YU Xing-Long ; WEI Xing ; WANG Ding-Xin ; DING Xiang ; LIAO Wei ; ZHAO Xin-Sheng
	2010-06-08 ; 2010-06-08
关键词	蛋白质微阵列 SPR 相位检测 偏振光干涉 Protein micro-array, SPR, Phase detection, Interference of polarized light O629.73
其他题名	Real-time SPR Phase Detection for Protein Micro-array
中文摘要	将表面等离子体共振(surfaceplasmonresonance,SPR)与空间相位调制检测结合,用一束准直的平行光照射传感芯片,在反射光路中引入渥拉斯顿棱镜,使光束中的p光和s光产生偏振光干涉形成条纹,生化反应的有关信息从干涉条纹的相位变化中得出.选择金膜厚度为30nm和40nm的两种芯片,分别用浓度为50%和20%的酒精-水溶液进行实验,得到SPR阵列图谱;选择金膜厚度为30nm,兔IgG作为阳性对照,牛血清白蛋白(BSA)作为阴性对照,与0.2mL的羊抗兔IgG、1.8mL水的混合溶液反应,得到阵列反应图谱.实验结果表明,这种方法具有抗干扰能力强,灵敏度高,无需标记和可实时检测等优点,能满足蛋白质芯片检测的要求.; Combining surface plasmon resonance (SPR) and spatial phase modulation, a real-time SPR sensingchip was illuminated with a collimated parallel light beam. A Wollaston prism was introduced into the detectionlight path, causing the p- and s-polarization components to interfere with each other. The information ofbiochemical reactions could be obtained by extracting the phase change from the interference patterns. The sensorchips, on which the Au film was 30 nm and 40 nm, experimented with 50% and 20% alcohol solutionsrespectively to obtain SPR array graph. Subsequently, two proteins, rabbit IgG as positive sample and BovineSerum Albumin (BSA) as negative control, reacted with the mixed solution of 0.2 mL goat-anti-rabbit IgG sampleand 1.8 mL deionized water, using Au film of 30 nm. The reaction diagram was also attained. The experimentalresults indicated that, with the merits of high noise resistance, high sensitivity, unlabelled and real-time detection,this SPR method could meet the requirement of protein micro-array detection.; 国家自然科学基金(20333010)资助项目~~
语种	中文 ; 中文
内容类型	期刊论文
源URL	[http://hdl.handle.net/123456789/49494]
专题	清华大学
推荐引用方式 GB/T 7714	余兴龙,魏星,王鼎新,等. 蛋白质微阵列SPR实时相位检测[J],2010, 2010.
APA	余兴龙.,魏星.,王鼎新.,定翔.,廖玮.,...&ZHAO Xin-Sheng.(2010).蛋白质微阵列SPR实时相位检测..
MLA	余兴龙,et al."蛋白质微阵列SPR实时相位检测".(2010).

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