A MEMS Based Amperometric Immunosensor with Self-assembled Monolayers Immobilization Technique

Based on MEMS technology,immunosensor with an'Au,Pt,Pt'three-microelectrode system enclosed in a SU-8 micro pool was fabricated.Employing SAMs technique,the Au electrode was modified by cysteamine(Cys)to assemble gold nanopanicles(nanogold)layer,subsequently,a layer of protein G(PG)was immobilized on nanogold layer to further capture antibody orientedly.Compared with the immunosensors using bulky gold electrode and direct PG binding to electrode immobilization technique for antibody,it has attractive advantages,such as miniaturization,good compatibility,broad linear range for human immunoglobulin(HIgG)and easy to be designed into array.

基于碳纳米管的脂质体电化学发光免疫传感器检测人免疫球蛋白G

将人免疫球蛋白G(hIgG)抗体固定在多壁碳纳米管修饰的玻碳电极表面,制备了一种电化学发光(ECL)免疫传感器。以hIgG抗体标记的联吡啶钌脂质体为标记物,采用三明治型检测方式,成功建立了hIgG的ECL免疫检测技术。电化学发光强度与hIgG的浓度在0.01～0.8μg/L范围内呈良好的线性关系;线性回归方程为y=618.7x(μg/L)-23.9(n=6,r=0.995);检出限为0.004μg/L。用于人血清中hIgG的检测,结果令人满意。

压电石英晶体微阵列免疫传感器检测IgG的实验研究

目的 构建一种新型压电石英晶体人免疫球蛋白 (IgG)的免疫微阵列传感器。方法 抗IgG单克隆抗体采用蛋白A(SPA)法固定在AT切向、基频 1 0MHz的石英晶体微阵列金膜电极表面制成抗体敏感膜 ,构成压电石英晶体IgG免疫微阵列传感器。结果 构建的IgG压电石英晶体免疫微阵列传感器对IgG的响应特性良好 ,其检测下线为 0 .5mIU/ml。 结论 研制的压电石英晶体IgG免疫微阵列传感器具有灵敏度高、特异性好、成本低廉、操作简单、快速 ,能在线实时检测等优点 ,可用于临床实验诊断。

脂质体电化学发光免疫传感器用于人IgG的检测

实验构建了一种检测人免疫球蛋白G(人IgG)的竞争型免疫传感器.采用层层组装的方法将IgG抗体固定在金纳米粒子修饰的金电极表面,基于待测IgG与IgG抗原标记的、内部包裹Ru(bpy)23+的脂质体之间的竞争,实现对人IgG的检测.结果表明,电化学发光强度与人IgG的浓度在0.1-3 ng/mL范围内呈良好的线性关系,线性回归方程为y=803.1-206.2x(ng/mL)(n=6,R=0.99),检出限为0.05 ng/mL.对人血清中IgG检测,结果令人满意.

磁性荧光免疫纳米探针的制备及检测应用

建立了一种基于磁性荧光免疫纳米探针的竞争性免疫分析法并用于检测人免疫球蛋白G(IgG),蛋白G被用作抗体与磁性纳米团簇定向结合的衔接蛋白.将蛋白质修饰的磁性纳米团簇与荧光猝灭剂(DABCYL)标记的山羊抗人IgG偶联,然后与羧基荧光素(FAM)标记的人IgG孵育,得到磁性荧光纳米复合免疫探针,最后与目标分析物(人IgG)孵育,进行竞争性免疫反应.结果表明,抗体的定向连接可以有效避免其抗原活性位点被包覆,而小尺寸的纳米团簇可以起到信号放大作用,从而提高检测灵敏度.该探针检测IgG的线性范围为0.06~146.00nmol·L^(-1),检测限为0.02nmol·L^(-1)(S/N=3),其抗干扰能力强,并且能够用于人血清中Ig G的检测.

磁性无机-生物复合粒子敏感膜新型电流型免疫传感器的研究

合成了磁性Fe3O4纳米粒子，利用3-氨基丙基三乙氧基硅烷（APS）进行硅烷化，形成表面带有氨基的磁性Fe3O4纳米复合粒子，再用戊二醛将羊抗人免疫球蛋白G抗体（anti-IgG）固定在该磁性粒子表面，通过磁力将其修饰于固体石蜡碳糊电极表面制作成免疫传感器。与标记HRP的二抗体anti-IgG结合，以对苯二酚作为电子媒介体，实现对人免疫球蛋白G（IgG）的定量检测。IgG测定线性范围为2．5～400μ/L，检出限为0．75μ/L。该免疫传感器制作简单，成本低，表面更新方便，可用于临床血清检测。

聚烯丙基氯点击反应接合葡萄糖纳米磁球的制备与糖肽富集

糖蛋白及与蛋白质结合的糖链在生物体内的丰度一般极低,为实现其准确定性及定量,去除高丰度非糖蛋白、非糖肽的干扰,通常需要进行富集前处理操作。该文设计并制备了一种基于点击化学反应和烯丙基氯多功能化位点聚合物的葡萄糖改性核-壳-壳型磁性纳米颗粒,并建立了相应的用于糖肽亲水富集的固相微萃取方法。以人免疫球蛋白G酶解液为样品,共测得32个糖肽信号。该方法检出限可达10 fmol,每克磁性分离介质的富集容量达100 mg。

C-dots assisted synthesis of gold nanoparticles as labels to catalyze copper deposition for ultrasensitive electrochemical sensing of proteins

We report an ultrasensitive protocol for electrochemical sensing using the hydroxyl-rich C-dots assisted synthesis of gold nanoparticles(C-dots@AuNP) as labels with copper depositon reaction. The C-dots catalyzing copper deposition reaction was implemented for the first time. We constructed a sandwich-type immunosensor on the chitosan modified glassy carbon electrode(GCE) by glutaraldehyde(GA) crosslinking, with C-dots@AuNP as biolabels. Copper was deposited on the catalytic surfaces of second antibody-conjugated C-dots@AuNP nanoparticles through CuSO_4-ascorbic acid reduction, because both C-dots and AuNPs could strongly catalyze the CuSO_4 and ascorbic acid to form Cu particles, which amplified the detection signal. Then the corresponding antigen was quantified based on simultaneous chemical-dissolution/cathodic-preconcentration of copper for insitu analysis using anodic stripping square wave voltammetry(ASSWV) directly on the modified electrode. Under optimized conditions, these electrodes were employed for sandwich-type immunoanaly sis, pushing the lower limits of detection(LODs)down to the fg mL^(-1) level for human immunoglobulin G(IgG) and cardiac troponin I(cTnI), a cardiac biomarker. These novel sensors have good stability and acceptable accuracy and reproducibility, suggesting potential applications in clinical diagnostics.

基于二氧化锆纳米微粒的电化学免疫传感研究

利用二氧化锆纳米微粒(ZrO_(2)NPs)良好的生物相容性和大的比表面积,成功制备了一种新型的人免疫球蛋白电化学免疫传感器。基于层层组装的方法将金纳米微粒-壳聚糖-多壁碳纳米管(AuNPs-CHIT-MWCNTs)纳米复合物、二氧化锆纳米微粒依次修饰在电极表面作为固定抗体的基底,不仅利用金纳米微粒和多壁碳纳米管的优异导电性提高了电子的转移速率而且利用ZrO_(2)NPs大的比表面积固定更多数量的抗体。构建的电化学免疫传感器具有较宽的线性检测范围,为0.01~800.0 ng/mL、800.0~6000.0 ng/mL,检测限为3.0 pg/mL,并且具有良好的选择性、重现性和稳定性。