基于微机电系统技术和纳米金自组装膜的安培型免疫传感器研究

基于微机电系统(MEMS)技术制备安培型免疫传感器,并利用基于硫醇单层膜的纳米金单层膜自组装技术设计传感器界面,用于固定人免疫球蛋白(IgG)抗体,研制了一种新型的安培型免疫传感器。采用MEMS技术,在硅片上制备微型的三电极系统以及SU-8反应池。基于自组装技术,先在金电极上自组装巯基乙胺单层膜,利用膜上氨基与纳米金共价结合组装纳米金单层膜,得到可用于固定抗体的界面。实验探讨了影响抗体固定的主要实验参数和条件;考察了采用此固定化方法传感器的响应性能,与金电极直接吸附固定法和戊二醛共价交联固定法进行了比较。对IgG检测的实验结果表明,采用纳米金自组装膜固定抗体,具有活性高、非特异性吸附小、检测线性范围宽等优点。并且,基于MEMS技术的安培型免疫传感器具有微型化、与集成电路工艺相兼容、易于实现传感器的阵列化和实时多参数检测等优点。     

基于酶催化沉积质量放大的压电免疫传感器的研究

提出了一种酶催化沉积质量放大的高灵敏压电免疫传感器. 采用1,6-二巯基己烷在石英晶振上自组装一单分子层, 再通过另一端巯基连接胶体金, 利用胶体金的高比表面积和强吸附作用力增加抗IgG抗体的固定量, 同时借助胶体金优良的生物亲和性保持抗IgG抗体的活性. 在H2O2存在下, 通过标记在抗人IgG抗体上的HRP酶催化底物DAB(3,3′-联苯二胺), 反应中生成的不溶性产物沉积到石英晶振的Au电极表面, 达到质量放大的目的. 结果表明, 检测人IgG在16 ng/mL-100 μg/mL范围内有很好的线性关系, 检测下限为10 ng/mL, 在用于实际试样的回收率测定中, 结果良好.     

Double‐Layer Nanogold and Double‐Strand DNA‐Modified Electrode for Electrochemical Immunoassay of Cancer Antigen 15‐3

Various sensor‐based immunoassay methods have been extensively developed for the detection of cancer antigen 15‐3 (CA 15‐3), but most often exhibit low detection signals and low detection sensitivity, and are unsuitable for routine use. The aim of this work is to develop a simple and sensitive electrochemical immunoassay for CA 15‐3 in human serum by using nanogold and DNA‐modified immunosensors. Prussian blue (PB), as a good mediator, was initially electrodeposited on a gold electrode surface, then double‐layer nanogold particles and double‐strand DNA (dsDNA) with the sandwich‐type architecture were constructed on the PB‐modified surface in turn, and then anti‐CA 15‐3 antibodies were adsorbed onto the surface of nanogold particles. The double‐layer nanogold particles provided a good microenvironment for the immobilization of biomolecules. The presence of dsDNA enhanced the surface coverage of protein, and improved the sensitivity of the immunosensor. The performance and factors influencing the performance of the immunosensor were evaluated. Under optimal conditions, the proposed immunosensor exhibited a wide linear range from 1.0 to 240 ng/mL with a relatively low detection limit of 0.6 ng/mL (S/N=3) towards CA 15‐3. The stability, reproducibility and precision of the as‐prepared immunosensor were acceptable. 57 serum specimens were assayed by the developed immunosensor and standard enzyme‐linked immunosorbent assay (ELISA), respectively, and the results obtained were almost consistent. More importantly, the proposed methodology could be further developed for the immobilization of other proteins and biocompounds.     

基于聚硫堇、DNA/纳米银复合物共修饰癌胚抗原免疫传感器的研究

将硫堇聚合到玻碳电极(GCE)表面形成带正电的多孔聚硫堇(PTH)复合膜, 通过静电吸附固定DNA/纳米银复合物, 利用复合物中纳米银大的比表面积和强的吸附能力将癌胚抗体(anti-CEA)固定到电极表面, 从而制得高灵敏的电流型癌胚抗原(CEA)免疫传感器. 通过循环伏安法考察了电极表面的电化学行为, 并对免疫传感器的性能进行了详细研究. 在最优的实验条件下, 用示差脉冲伏安法(DPV)对癌胚抗原进行检测, 其线性范围为1.0～10.0 ng•mL^－1和10.0～80.0 ng•mL^－1, 线性相关系数分别为0.9983和0.9970, 检测限为0.24 ng•mL^－1, 并将该免疫传感器用于血清样品中CEA的检测.     

基于碳纳米管/L-半胱氨酸/Fe3O4@Au纳米复合材料的电流型甲胎蛋白免疫传感器的研究

将DMF(N,N-二甲基甲酰胺)分散的多壁碳纳米管(MWNT)修饰在金电极表面,再将修饰电极依次沉积纳米金和L-半胱氨酸(L-Cys),并通过半胱氨酸中的巯基吸附Fe3O4@Au纳米复合材料,再固载甲胎蛋白抗体(anti-AFP),以牛血清白蛋白(BSA)封闭非特异性吸附位点,构建了高灵敏、稳定的新型电流型甲胎蛋白免疫传感器。实验通过扫描透射电子显微镜(TEM)对DMF-MWNT和Fe3O4@Au复合纳米粒子进行了表征。在优化的实验条件下,此免疫传感器对甲胎蛋白抗原的检测范围为0.1～150μg/L,检出限为0.03μg/L。     

Double‐Layer Nanogold and Poly(amidoamine) Dendrimer‐ Functionalized PVC Membrane Electrode for Enhanced Electrochemical Immunoassay of Total Prostate Specific Antigen

A simple and portable electrochemical immunosensor for the detection of total prostate specific antigen (t‐PSA) in human serum was developed using a double‐layer nanogold particles and dendrimer‐functionalized polyvinyl chloride (PVC) membrane as immunosensing interface. To fabricate such a multifunctional PVC electrode, an o‐phenylenediamine‐doped PVC membrane was initially constructed, then nanogold particles and poly(amidoamine) G4‐dendrimer with a sandwich‐type format were assembled onto the PVC membrane surface, and then t‐PSA antibodies (anti‐PSA) were adsorbed on the nanogold surface. The detection principle of the immunosensor is based on the change in the electric potential before and after the antigen‐antibody interaction. The experimental conditions and the factors influencing the performance of the immunosensor were investigated. Under optimal conditions, the proposed immunosensor exhibits good electrochemical behavior in the dynamic range of 0.5–18 ng/mL relative to t‐PSA concentration with a relative low detection limit of 0.1 ng/mL (S/N=3). The precision, reproducibility, and stability of the immunosensor are acceptable. In addition, 43 serum specimens were assayed by the as‐prepared immunosensor, and consistent results were obtained in comparison with those obtained by the standard enzyme‐linked immunosorbent assay (ELISA). Compared with the conventional ELISAs, the developed immunoassay system was simple and rapid without labeling and separation steps. Importantly, the immobilization and detection methodologies could be extended for the immobilization and detection of other biomarkers.     

A piezoelectric immunoassay based on self-assembled monolayers of cystamine and polystyrene sulfonate for determination of Schistosoma japonicum antibodies

A piezoelectric immunosensor based on an improved immobilization strategy combining self-assembled monolayers (SAM) of cystamine (Cys) and polystyrene sulfonate (PSS) has been developed for the determination of Schistosoma japonicum antibodies (SjAb) in rabbit serum. Cys SAM were first applied to the gold electrode surface of the crystal, serving as a positively-charged base. Schistosoma japonicum antigen (SjAg) was then electrostatically immobilized on the crystal by means of a negatively-charged PSS layer. When sealed by use of an appropriately selected blocking reagent for BSA and normal rabbit serum (NRS), non-specific adsorption could be substantially reduced.The immunosensor was used to determine SjAb in optimized buffer medium with addition of poly(ethylene glycol) (PEG), which served as an immunoreaction enhancer. It was shown experimentally that SjAg immobilized by the Cys-PSS adsorption procedure had higher immunological activity or binding efficiency than those immobilized by the glutaraldehyde (GLU) binding or direct attachment procedures. The immunosensor developed had satisfactory sensitivity and detection limit, and regeneration of the piezoelectric quartz-crystal was easy. Analytical results obtained with infected rabbit serum samples indicated that the proposed immunosensor is a promising alternative for qualitative and quantitative determination of SjAb in clinical diagnosis of infection with Schistosoma japonicum.     

Ultrasensitive potentiometric immunosensor based on SA and OCA techniques for immobilization of HBsAb with colloidal Au and polyvinyl butyral as matrixes

A novel potentiometric immunosensor for detection of hepatitis B surface antigen (HBsAg) has been developed by means of self-assembly (SA) and opposite-charged adsorption (OCA) techniques to immobilize hepatitis B surface antibody (HBsAb) on a platinum electrode. A cleaned platinum electrode was first pretreated in the presence of 10% HNO3 and 2.5% K2CrO4 solution and held at -1.5 V (vs SCE) for 1 min to make it negatively charged and then immersed in a mixing solution containing hepatitis B surface antibody, colloidal gold (Au), and polyvinyl butyral (PVB). Finally, HBsAb was successfully immobilized onto the surface of the negatively charged platinum electrode modified nanosized gold and PVB sol-gel matrixes. The modified procedure was characterized by electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV). The immobilized hepatitis B surface antibody exhibited direct electrochemical behavior toward hepatitis B surface antigen (HBsAg). The performance and factors influencing the performance of the resulting immunosensor were studied in detail. More than 95.7% of the results of the human serum samples obtained by this method were in agreement with those obtained by enzyme-linked immunosorbent assays (ELISAs). The resulting immunosensor exhibited fast potentiometric response (<3 min) to HBsAg. The detection limit of the immunosensor was 2.3 ng.mL(-1), and the linear range was from 8 to 1280 ng.mL(-1). Moreover, the studied immunosensor exhibited high sensitivity, good reproducibility, and long-term stability (>6 months).     

Successive adsorption of polyacrylamide compounds from electrolyte solutions on the surface of kaolinitic clay particles

Successive adsorption of oppositely charged polyelectrolytes, namely, cationic and anionic acrylamide copolymers, on a solid phase surface from solutions with high ionic strength is investigated. The constants of the Freundlich equation are calculated for the adsorption of different polymers. The interrelation between the adsorption values of polymers and their flocculation activity with respect to clay-salt suspensions is determined. The successive adsorption of oppositely charged polyelectrolytes strongly affects the flocculation due to the formation of polyelectrolyte complexes on the surface of clay particles. The mechanism for complexation is proposed.     

A Highly Selective Poly(thiophene)‐graft‐Poly(methacrylamide) Polymer Modified ITO Electrode for Neuron Specific Enolase Detection in Human Serum

In this study, an impedimetric immunosensor based on polymer poly(thiophene)‐graft‐poly(methacrylamide) polymer (P(Thi‐g‐MAm)) modified indium tin oxide (ITO) electrode is developed for the detection of the Neuron Specific Enolase (NSE) cancer biomarker. First, the P(Thi‐g‐MAm) polymer is synthesized and coated on the ITO electrode by using a spin‐coating technique. P(Thi‐g‐MAm) polymer acts as an immobilization platform for immobilization of NSE‐specific monoclonal antibodies. Anti‐NSE antibodies are utilized as biosensing molecules and they bind to the amino groups of P(Thi‐g‐Mam) polymer via glutaraldehyde cross‐linking. Spin‐coating technique is employed for bioelectrode fabrication and this technique provides a thin and uniform film on the ITO electrode surface. This bioelectrode fabrication technique is simple and it generates a suitable platform for large‐scale loadings of anti‐NSE antibodies. This immunosensor exhibits a wide linear detection range from 0.02 to 4 pg mL^?1 and with an ultralow detection limit of 6.1 fg mL^?1. It reveals a good long‐term stability (after 8 weeks, 78% of its initial activity), an excellent reproducibility (1.29% of relative standard deviation (RSD)), a good repeatability (5.55% of RSD), and a high selectivity. In addition, the developed immunosensor is proposed as a robust diagnostic tool for the clinical detection of NSE and other cancer biomarkers.     

A sensitive amperometric immunosensor for alpha-fetoprotein based on carbon nanotube/DNA/Thi/nano-Au modified glassy carbon electrode

A novel amperometric immunosensor for the determination of alpha-fetoprotein (AFP) was constructed using films of multi-wall carbon nanotubes/DNA/thionine/gold nanoparticles (nano-Au). Firstly, multi-wall carbon nanotubes (MWCNT) dispersed in poly(diallydimethlammonium chloride) (PDDA) were immobilized on the nano-Au film which was electrochemically deposited on the surface of glassy carbon electrode. Then a negatively charged DNA film was absorbed on the positively charged PDDA. Subsequently, thionine was attached to the electrode via the electrostatic interaction between thionine and the DNA. Finally, the nano-Au was retained on the thionine film for immobilization of AFP antibody (anti-AFP). The modification process was characterized by cyclic voltammetry (CV) and scanning electron microscope (SEM). The factors possibly influenced the performance of the proposed immunosensors were studied in detail. Under optimal conditions, the proposed immunosensor exhibited good electrochemical behavior to AFP in a two concentration ranges: 0.01–10.0 and 10.0–200.0 ng/mL with a relatively low detection limit of 0.04 ng/mL at three times the background noise. Moreover, the selectivity, repeatability and stability of the proposed immunosensor were acceptable.     

基于铁氰化钾电子媒介体及醛基吡啶盐的电化学免疫传感器

采用聚二烯丙基二甲基氯化铵(PDDA)将铁氰化钾电子媒介体固定在电极表面,构建免标记的电化学免疫传感器. 醛基吡啶盐不仅作为基底物质直接固定抗体,还可以很好地增强电极表面的导电性能. 将构建的传感器用于肿瘤标志物甲胎蛋白的检测. 其线性范围为0.01-20 ng·mL^-1,检测下限为0.004 ng·mL^-1（3 S/N）. 此传感器的构建简单方便、无标记、特异性好,为甲胎蛋白及其他肿瘤标志物提供了新的检测方法.     

基于网状混合自组装膜的压电免疫传感器及其应用

结合纳米金及混合自组装技术, 制备了一种新型网状混合膜, 提出了一种新的生物分子固定化方法, 研制了一种用于检测人血清抗精子抗体的压电免疫传感器. 首先, 将纳米金溶胶、巯基丙酸和1,6-二巯基己烷按一定的比例混合制得网状混合自组装膜, 然后将此膜组装到压电石英晶振的金电极表面, 经EDC/NHS活化后, 再将抗原固定到电极上, 实现对抗精子抗体的检测. 结果表明, 该方法能明显提高抗体抗原结合效率, 从而提高传感器的灵敏度, 并降低传感界面的非特异性吸附. 将此传感器应用于人血清抗精子抗体的检测, 线性范围为10~800 mU/mL, 检出限为7 mU/mL. 此传感器为抗精子抗体的临床检测提供了新平台.     

Biocompatible and label-free amperometric immunosensor for hepatitis B surface antigen using a sensing film composed of poly(allylamine)-branched ferrocene and gold nanoparticles

An amperometric immunosensor has been developed for sensitive determination of hepatitis B surface antigen as a model protein. A glassy carbon electrode was modified with an assembly of positively charged poly(allylamine)-branched ferrocene (PAA-Fc) and negatively charged gold nanoparticles (Au NPs). The formation of PAA-Fc effectively avoids the leakage of Fc, retains its electrochemical activity, and enhances the conductivity of the composite. The adsorption of Au NPs onto the PAA-Fc matrix provides sites for the immobilization of the antigen and a favorable micro-environment to maintain its activity. The morphologies and electrochemistry of the sensing film were investigated via scanning electron microscopy, electrochemical impedance spectroscopy, and cyclic voltammetry. Factors influencing the performance of the immunosensor were studied in detail. The concentration of the antigen can be quantitated (by measuring the decrease of the amperometric response resulting from the specific binding between antigen and antibody) in the range between 0.1 and 150?ng?mL^?C1, with a detection limit of 40?pg?mL^?C1 (S/N = 3). The method is economical, efficient, and potentially attractive for clinical immunoassays.

A Reagentless Amperometric Immunosensor for Alpha‐Fetoprotein Based on Gold Nanoparticles/TiO2 Colloids/Prussian Blue Modified Platinum Electrode

A novel reagentless amperometric immunosensor for the determination of alpha‐fetoprotein (AFP) was prepared by immobilizing TiO₂ colloids on Prussian blue (PB) modified platinum electrode, which yielded a positively charged interface with strong adsorption to deposit gold nanoparticles for immobilization of alpha‐fetoprotein antibody (anti‐AFP). The factors influencing the performance of the proposed immunosensors were studied in detail. Under the optimized conditions, cyclic voltammograms determination of AFP showed a specific response in two concentration ranges from 3.0 to 30.0 ng/mL and from 30.0 to 300.0 ng/mL with a detection limit of 1.0 ng/mL at a signal‐to‐noise ratio of 3. The proposed immunosensor exhibited high selectivity, good reproducibility, long‐term stability (>2 months) and good repeatability.     

Molecular dynamics simulations of multilayer films of polyelectrolytes and nanoparticles

We performed molecular dynamics simulations of multilayer assemblies of flexible polyelectrolytes and nanoparticles. The film was constructed by sequential adsorption of oppositely charged polymers and nanoparticles in layer-by-layer fashion from dilute solutions. We have studied multilayer films assembled from oppositely charged polyelectrolytes, oppositely charged nanoparticles, and mixed films containing both nanoparticles and polyelectrolytes. For all studied systems, the multilayer assembly proceeds through surface overcharging after completion of each deposition step. There is almost linear growth in the surface coverage and film thickness. The multilayer films assembled from nanoparticles show better layer stratification but at the same time have higher film roughness than those assembled from flexible polyelectrolytes.     

基于纳米金与碳纳米管-纳米铂-壳聚糖纳米复合物固定癌胚抗原免疫传感器的研究

采用纳米金(nano-Au)、多壁碳纳米管-纳米铂-壳聚糖的纳米复合物(MWNT-Pt-CS)及电子媒介体硫堇(Th)固载抗体制得高灵敏癌胚抗原免疫传感器．首先, 于壳聚糖溶液中用NaBH4还原H2PtCl6, 并将多壁碳纳米管分散于其中制得碳纳米管-纳米铂-壳聚糖纳米复合物, 并将其滴涂在玻碳电极上成膜; 然后, 吸附电子媒介体硫堇制得硫堇/碳纳米管-纳米铂-壳聚糖(Th/MWNT-Pt-CS)修饰电极．利用壳聚糖和硫堇分子中大量的氨基固定纳米金并吸附癌胚抗体(anti-CEA); 最后, 用辣根过氧化物酶(HRP)封闭活性位点从而制得高灵敏电流型免疫传感器．在优化的实验条件下, 该传感器响应的峰电流值与癌胚抗原(carcinoembryonic antigen)浓度在0.5～10和10～120 ng/mL的范围内保持良好的线性关系, 检测限为0.2 ng/mL．     

Fluorescence and ESR studies of the conformational behavior of oppositely charged polyelectrolytes at solid/liquid interfaces

The conformational behavior of oppositely charged polyelectrolytes on alumina in solutions was investigated by means of excimer fluorescence and electron spin resonance spectroscopy using maleic acid-propene copolymer labeled with pyrene or TEMPO. It was found that the ability of the polyanion at the surface for conformational rearrangements is strongly influenced by the constraints of the adsorbed state that restrict its complexation. Polyelectrolyte complexes (PEC) formed by mixing of the oppositely charged polyelectrolytes exhibited extreme coiling due to the screening of the charged groups. The polyelectrolytes undergo spreading during the adsorption process due to the electrostatic attraction. Surface binding can irreversibly limit the flexibility for the reconformation process to a great extent. It is also shown here that a flatter adsorbed state could be reached by sequential adsorption of polyanion and polycation than could be reached by the direct adsorption of the polyelectrolyte complex itself.     

A Novel Magnetism‐assisted Electrochemical Immunosensor with Sub‐Picomolar Sensitivity

A novel electrochemical immunosensor based on a magnetic glassy carbon electrode (MGCE) was developed for the quantitative determination of human immunoglobulin G (IgG). The immunosensing interface was fabricated by initially depositing silver nanoparticles on the MGCE surface and then immobilizing anti‐human IgG antibodies via the magnetic force between MGCE and Fe₃O₄ nanoparticles. The antibodies were covalently bonded to the amine‐functionalized Fe₃O₄ nanoparticles. Under optimal conditions, the magnetism‐assisted immunosensor exhibited a wide linear range from 0.1 pg/mL to 1.0 µg/mL with the detection limit of 0.05 pg/mL. Furthermore, the immunosensor displayed the advantages of good reproducibility and satisfactory stability.     

A Novel Electrochemical Immunosensor for Prostate-Specific Antigen Based on Noncovalent Nanocomposite of Ferrocene Monocarboxylic Acid with Graphene Oxide

A novel electrochemical immunosensor was developed for the determination of prostate-specific antigen based on immobilization of appropriate antibodies on gold nanoparticles and a poly-(2,6-pyridinediamine) modified electrode. The nanocomposite of ferrocene monocarboxylic acid hybridized graphene oxide was prepared by a π-π stacking interaction and was used as the electrochemical probe. A sandwich-type complex immunoassay was applied with polyclonal prostate-specific antigen antibodies labeled with the nanocomposite of ferrocene monocarboxylic acid hybridized graphene oxide. In order to improve the sensitivity, a potentiostatic method was used to reduce graphene oxide. Cyclic voltammetry and differential pulse voltammetry were employed to characterize the assembly process and the performance of the immunosensor. Under optimal conditions, the peak current of the immunosensor increased with concentration, showing a linear relationship between the peak current and the logarithm of the prostate-specific antigen concentrations in a wide range of 2.0 pg mL^?1 to 10.0 ng mL^?1 with a low detection limit of 0.5 pg mL^?1. The immunosensor was used for the determination of prostate-specific antigen in serum.