【作者】 柏建国；

【导师】 周伟红；

【作者基本信息】 吉林大学 ， 分析化学， 2010， 博士

【摘要】 本论文主要涉及毛细管电泳电化学检测、电化学发光探针的制作及应用以及毛细管电泳与三联吡啶钌电化学发光检测联用技术的一些应用,共包括四个部分。1.本文首次采用毛细管电泳微型检测器测定了市售无糖口香糖中的木糖醇、山梨醇,该法分析速度快、微型便捷。2.合成了灵敏的三联吡啶钌的电化学发光探针,并将此探针结合金纳米放大技术以及生物竞争机制应用到溶菌酶的检测,最后该方法成功地应用到生物品的检测,该方法具有极高的灵敏度以及选择性。3.合成三联吡啶钌标记的DNA链,并将该方法用于环境中汞离子的检测。4.首次应用毛细管电泳与电化学发光联用测定了人体尿液中的肌氨酸并且考察其含量与前列腺癌的关系,为人体的代谢组学以及前列腺癌早期诊断提供新的检测平台。更多还原

【Abstract】 This thesis is focused on the application of high performanc capillaryelectrophoresis, synthesis and application of electrochemiluminescence probe. We alsodo some work with the combination of capillary electrophoresis andelectrochemiluminescence detection. It consists of the following four sections.1. A miniaturized capillary electrophoresis with electrochemical detection （CE-ECD）system for the separation and determination of xylitol、sorbitol in three commercialsugar-free gums was developed. Factors influencing the separation and detectionprocesses were examined and optimized. These two analytes have been separatedwithin 10min at a separation voltage of 4 kV in 70 mmol/L NaOH running buffer.Highly linear response was obtained at the range of 5.0×10^-5～10-2 mol/L and5.0×10^-5～5.0×10-2 mol/L with the detection limits （S/N=3） of 5.0×10^-6 mol/L and2.5×10^-6 mol/L for xylitol and sorbitol, respectively （r>0.9997）. The proposed methodwas successfully applied to determine the gum samples with the RSD and averagerecoveries of 3.68%、4.51% and 98.1 %、91.1% for xylitol and sorbitol, respectively （ n= 10） . 2. A novel Ru（bpy）2（dcbpy）NHS labeling/aptamer based biosensor combined with goldnanoparticles amplification for the determination of lysozyme withelectrochemiluminescence （ECL） method is presented. In this work, aptamer, ECLprobe, gold nanoparticles amplification and competition assay are the main protocolsemployed in ECL detection. Thanks to all those protocols used, an original biosensorcoupled with aptamer and Ru（bpy）2（dcbpy）NHS is prepared, high selectivity andsensitivity are the main advantages over other traditional Ru（bpy）32+ biosensors. All theelectrochemical impedance spectroscopy （EIS） and atomic force microscopy （AFM）characterization illustrate that this biosensor is fabricated successfully. Finally, thebiosensor was applied to displacement assay in different concentrations of lysozymesolution and a ultrasensitive ECL signal was obtained. The ECL intensity decreasedproportional to the lysozyme concentration over the range from 1.0×10-13 mol/L to1.0×10-8 mol/L with detection limit of 1.0×10-13 mol/L. This strategy for the aptasensoropens a rapid, selective and sensitive route for lysozyme and other potential proteindetections.3. A novel sensitive electrogenerated chemiluminescence （ECL） method for thedetection of Hg2+ based on deoxyribonucleic acid （DNA） hybridization was developed.A probe based on Ru（bpy）2（dcbpy） was synthesized in our laboratory and this probe wasapplied to label DNA and then this DNA-ester probe was fabricated on the surface ofgold electrodes to detect Hg2+ in the environment. We synthesized two kind of DNAprobes to determine Hg2+. A detection limit of 5.0×10-8 mol/L （S/N=3） was achieved.This Ru（bpy）2（dcbpy）NHS label system is a simple and sensitive method，which couldbe further expand the application of ECL in environment.4. The analysis of sarcosine is of clinical importance in characterizing prostate cancer development. In this paper a rapid and reliable determination method for sarcosine inhuman urine based on capillary electrophoresis-electrochemiluminescence detection isdescribed. The conditions affecting separation and detection were systematicallyinvestigated. Finally, End-column detection of sarcosine in 5 mM Ru（bpy）32+ solution atapplied voltage of 1.20 V and 10 s electrokinetic injection time at 10 kV was performed.Under these conditions, this method was validated for stability, precision, linearity andaccuracy. Excellent linearity was obtained in the range of 0.25×10^-3 mol/L-10^-5 mol/L.The R.S.D. values of ECL intensity and migration time were 3.41% and 1.43% for 10-4mol/L sarcosine, respectively. A detection limit of 5×10^-6 mol/L （S/N=3） was achieved.The proposed method was applied satisfactorily to the determination of standardsarcosine in buffer within 10 min. Finally, this method was applied to determinesarcosine in real urine sample of normal people and cancer patients successfully. As weexpected, this strategy can be used as a potential diagnoses method for prostate cancer.更多还原