基于功能化溶胶-凝胶膜的乳腺癌抗原免疫传感器

结合溶胶-凝胶(sol-gel)和交联技术,将乳腺癌抗体固定在铂盘电极表面的氨基化sol-gel功能膜上,制备出用于检测乳腺癌抗原(CA15-3)的免疫传感器.用红外光谱验证了该传感器功能膜的形成过程和组成结构,采用循环伏安法对传感器逐层修饰过程进行了表征,并对传感器功能膜的作用机理进行了探讨.该法检测CA15-3的线性范围为8～240U/mL,线性回归方程为ΔE=75.75lgc-56.36,r=0.998.结果表明,该方法很好地保持了被固定抗体的活性,增强了传感器的稳定性,所制备的传感器于4℃干态保存30d,其响应信号基本不变.且该传感器响应迅速、灵敏度高、选择性好,血清中常见抗原不干扰测定.     

基于PEG凝聚的压电免疫传感器用于低密度脂蛋白的测定

研制了一种基于ＰＥＧ凝聚的低密度脂蛋白（ＬＤＬ）液相压电免疫传感器。考察了ＰＥＧ浓度,ＰＥＧ分子量及反应温度等因素对频移的影响。采用终点法和初始速率法测得ＬＤＬ线性范围分别为０．４￣２２．５μｇ·ｍＬ＾－１和０．２￣１９．０μｇ·ｍＬ＾－１,对６个血清样本的分析结果与磷酸镁沉淀酶法基本一致。     

溶胶-凝胶非标记 CA15-3免疫传感器的研制与应用

采用溶胶-凝胶技术将乳腺癌抗体固定于电极表面,研制成用于检测乳腺癌抗原的非标记型溶胶-凝胶-抗体膜免疫传感器;用循环伏安法对电极的修饰过程进行表征,同时对乳腺癌抗原定量检测的可行性进行了探讨;随着抗体与抗原特异性反应的进行,形成的抗体-抗原免疫复合物使膜电位发生变化(△V),该变化的大小与溶胶-凝胶-抗体膜表面免疫反应进行的程度相关;本文以此为依据对CA15-3进行检测,在5～240U／mL范围内．△V／与lgCCA15-3呈良好的线性关系,线性相关系数r=O.998;该传感器响应迅速,灵敏度高,稳定性好,于4℃干态保存30d,其响应信号基本不变。     

一种基于静电吸附作用的直接检测补体C3新型可再生电容型免疫传感器

通过壳聚糖/褐藻酸钠体系实现抗体在电极上的固定,制得可多次再生的电容型免疫传感器,用于补体C₃的检测.先在金电极表面上组装一层半胱胺单分子层,通过戊二醛把壳聚糖修饰在金电极上,再用十二硫醇封闭电极,最后,利用壳聚糖与褐藻酸钠之间的强静电相互作用实现抗体的固定.使用交流阻抗法研究了溶液pH值和离子强度对电极膜层稳定性及对抗体固定性的影响.结果表明,所制备的传感器操作简便,易于再生,电容响应与补体C₃浓度在18.2～292.5ng/mL范围内呈线性关系,检出限为9.1ng/mL.     

基于溶胶-凝胶固定技术的生物组织传感器

报道了一个制备生物组织传感器的新技术。将溶胶 凝胶与植物液汁按一定比例结合 ,使天然植物中的多酚氧化酶被固定于溶胶 凝胶中 ,将其滴涂于预先涂有一层Nafion膜的铂盘电极表面 ,构成带有Nafion 溶胶凝胶 植物液汁的复合修饰膜的生物传感器 ,用于测定神经递质多巴胺。采用循环伏安法和线性扫描伏安法考察了传感器的电化学特性 ,比较了不同植物品种及其不同部位组织的生物催化活性 ;研究了乙醇用量、水酯比、植物液汁用量等因素的影响 ;考察了Nafion膜的防干扰性能。采用差示脉冲伏安法对多巴胺进行定量分析 ,线性范围为 2× 10 -6～ 1× 10 -4mol/L ;检出限为 8.0× 10 -7mol/L。与传统的组织电极相比 ,本传感器具有一系列特点。     

基于巯基自组装单层膜技术的补体C3压电免疫传感器的研究

本文采用自组装单层膜(SAMs)技术在压电石英晶振金电极表面组装巯基丙酸SAMs,以盐酸1-乙基-3-(3-二甲基氨基丙基)碳二亚胺(EDC)和N-羟基琥珀酰亚胺(NHS)作偶联剂共价固定补体C3抗体,研制了一种检测人血清中补体C3成分的压电免疫传感器。研究了巯基丙酸的自组装和抗体的固定化条件,考察了晶振固定抗体后的液相振荡行为和检测特性。并利用压电传感装置的实时监测功能,研究了巯基丙酸在金电极表面的自组装成膜过程和补体C3免疫反应动力学,获得了重要的动力学依据和参数。传感器检测补体C3的线性范围为2．34～23．2μg／mL。将传感器用于临床样品的检测,所得结果与酶联免疫吸附法基本一致。     

基于酶-抗体共固定二氧化锆纳米信号探针的瘦肉精安培免疫传感器研究

制备了基于酶-抗体共固定二氧化锆(ZrO2)纳米探针进行信号放大的盐酸特伦克罗瘦肉精(CLB)检测安培免疫传感器。首先,利用ZrO2纳米粒子负载葡萄糖氧化酶(Glucose oxidase,GOD)和CLB抗体(Clen-buterol antibody,anti-CLB),制得纳米探针(ZNPs/GOD-anti-CLB signal probe,简称ZNPG)。同时将聚二烯丙基二甲基氯化铵[Poly(diallyldimethylammonium chloride),PDDA]、氯化血红素(Hemin)和纳米金(AuNPs)层层组装到多壁碳纳米管(MWCNTs)修饰的丝网印刷电极(SPCE)表面,制得SPCE│MWCNTs/(PDDA/Hemin/AuNPs)n电流型传感器,可对H2O2产生还原催化电流。检测CLB时,将样品和ZNPG一起加入预先包埋好CLB的96孔板底部。样品CLB与板底CLB共同竞争结合孔溶液中的纳米探针ZNPG。反应结束后加入葡萄糖,板底ZNPG-CLB免疫复合物上的GOD催化葡萄糖氧化产生H2O2,可通过传感器检测。电流下降值(ΔI)与样品CLB成反比,可用于CLB的定量分析。由于ZNPG上具有高的GOD酶标记密度,故可以显著放大检测信号,提高检测灵敏度。在最佳条件下(pH 7.0,温育时间30 min,温育温度37℃),此传感器对CLB的检测范围为0.003～100μg/L,检测下限为1 ng/L,比酶联免疫分析法(ELISA)法灵敏度提高2个数量级,在猪饲料样品中进行加标回收实验,平均回收率达93.6%,相对标准偏差(RSD)小于2.5%,精密度好。同时该传感器具有可重复使用、灵敏快速,适合于食物样品中痕量CLB现场检测。     

基于荧光猝灭的磷酸盐光化学溶胶-凝胶传感膜

利用溶胶－凝胶技术对荧光物质铝－桑色素进行包埋，根据荧光猝灭原理制取了对水体中磷酸根离子有较好响应的光纤光化学传感膜；研究了温度、pH值对传感膜荧光强度的影响以及膜的响应时间、泄漏性、光稳定性及干扰情况等性能指标；该传感膜的响应时间t95%=6min，磷酸根离子的线性范围在0.1-7.0mg/L，检出限为0.02mg/L。     

基于免疫磁分离和酶催化放大的化学发光免疫传感器测定人血清中癌胚抗原的含量北大核心CSCD

基于免疫磁分离和酶催化放大策略,构建了一种用于测定人血清中癌胚肮原(CEA)含量的化学发光免疫传感器。利用抗原-抗体的特异性结合,将磁球作为免疫反应的固相载体去捕获癌胚抗原(CEA),并通过在免疫磁球表面负载辣根过氧化酶(HRP)作为检测标记物,形成磁性免疫夹心复合物。通过HRP对过氧化氢的催化作用,氧化鲁米诺产生较强的化学发光信号,根据化学发光强度来定量CEA。结果显示:CEA的质量浓度在0.05~80.00μg·L^(-1)内与其对应的化学发光强度呈线性关系,检出限为4.5 ng·L^(-1);对样品进行回收试验,回收率为97.0%~100%。与其他固相载体和化学发光免疫传感器相比,该方法检测CEA的化学发光强度更强,并且具有更宽的线性范围和更低的检出限。     

A Renewable Potentiometric Immunosensor Based on Fe3O4 Nanoparticles Immobilized Anti‐IgG

A renewable potentiometric immunosensor for detection of immunoglobulin G (IgG) has been developed by magnetic force attraction of Fe₃O₄ nanoparticles immobilized goat‐anti‐human IgG antibody. For preparing sensitive film of the sensor, cysteine was bonded on the nano‐Fe₃O₄ particles surface. The cysteine functionalized magnetic nanoparticles was attracted on a solid paraffin carbon paste electrode surface to covalently immobilize of anti‐immunoglobulin G (anti‐IgG) by employing a conventional glutaraldehyde‐crosslinking method. The immunosensor showed a specific response to human immunoglobulin G in the range of 0.1–1.2 ng/mL with a detection limit of 0.023 ng/mL. The immunosensor based on the magnetic nanoparticles was made easily by this method. It can be used expediently, renewed easily and low‐cost relatively. The renewable potentiometric immunosensor with better stability and higher sensitivity can be employed extensively in clinical diagnosis, monitoring of disease and environmental studies and etc.     

Reusable Amperometric Immunosensor for the Determination of Cortisol

Abstract

A novel reusable amperometric immunosensor was developed for the determination of cortisol by co-immobilizing horseradish peroxidase (POD) and cortisol-antibody on a chemically activated affinity membrane which is mounted over the tip of an oxygen electrode. The enzymatic electrocatalytic current response to the respective substrate is inhibited by the association of the antigen to the co-immobilized antibody. The sensor can be regenerated to facilitate several assays by washing with dilute hydrochloric acid solution. The advantages of the sensor include rapid-response, simple analysis methodology and high selectivity. The calibration curve for cortisol is linear in the concentration range of 1 × 10^?7 – 1 × 10^?5M. The optimal conditions of immobilization and pH have been studied. The inhibition of enzymatic activity was confirmed by luminescence measurement utilizing the luminol- H₂O₂-POD system.     

溶胶凝胶溴离子选择电极的研制与应用

报道了一种以溶胶凝胶为载体的溴离子选择电极。电极信号响应线性范围为1 .0× 1 0 - 1～ 1 .0× 1 0 - 5mol/L,斜率为 5 7m V/pc;检出限为 2 .5× 1 0 - 6 mol/L。该电极响应快 ,体积小 ,稳定性和重现性好。电极用作测定溴离子浓度 ,结果令人满意     

基于丝网印刷碳电极的微囊藻毒素-(亮氨酸-精氨酸)的电流型免疫传感器

将微囊藻毒素-(亮氨酸-精氨酸)-鸡卵白蛋白 (Microcystin-(leucinc-arginine)-ovalbumin,MCLR-OVA)固定在锇联吡啶聚(4-乙烯基吡啶)聚合物修饰的丝网印刷碳电极表面,制备了一种检测 MCLR的电流型免疫传感器.该传感器基于间接竞争免疫分析模式,以辣根过氧化物酶偶联的羊抗鼠...     

Amperometric Immunosensor Based on Gold Nanoparticles/Fe3O4-FCNTs-CS Composite Film Functionalized Interface for Carbofuran Detection

In this paper, a novel amperometric immunosensor for the determination of carbofuran based on gold nanoparticles (GNPs), magnetic Fe₃O₄ nanoparticles-functionalized multiwalled carbon nanotubes-chitosan (Fe₃O₄-FCNTs-CS), and bovine serum albumin (BSA) composite film was proposed. First, GNPs were immobilized onto the glassy carbon electrode (GCE) surface, and then the magnetic Fe₃O₄ nanoparticles mixed with chitosan-functionalized multiwall carbon nanotubes (CS-FCNTs) homogeneous composite (CS-FCNTs-Fe₃O₄) was immobilized onto the GNPs layer by electrostatic interactions between amino groups of CS and GNPs. Because chitosan (CS) contains many amino groups, it can absorb more antibodies. FCNTs have high surface area, high electrical conductivity, and it can enhance the electron transfer rate; Magnetite (Fe₃O₄) nanoparticles can provide a favorable microenvironment for biomolecules immobilization due to their good biocompatibility, strong superparamagnetic property, and low toxicity; and GNPs possess high surface-to-volume reaction, stability, and high conductivity. Gold Nanoparticles/Fe₃O₄-FCNTs-CS composite film was constructed onto the GCE surface, which had significant synergistic effects toward immunoreaction signal amplification. The stepwise assembly process was characterized by cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS), respectively. Under the optimal conditions, the current response was proportional to the concentration of carbofuran ranging from 1.0 ng/mL to 100.0 ng/mL and from 100.0 ng/mL to 200 µg/mL with the detection limit 0.032 ng/mL. The proposed immunosensor exhibited good accuracy, high sensitivity, and stability, and it can be used for detection of carbofuran pesticide.     

An Amperometric Immunosensor for IgG Based on Conducting Polymer and Carbon Nanotube‐Linked Hydrazine Label

An amperometric immunosensor for IgG was developed by covalently immobilizing anti‐IgG on multiwall carbon nanotube‐embedded conducting polymer, poly‐5,2′ : 5′′,2′′‐terthiophene‐3′‐carboxylic acid (MWCNT/pTTCA). The MWCNT/pTTCA modified electrode was characterized by SEM, EIS, and XPS. A hydrazine‐labeled secondary antibody‐MWCNT conjugate (Hyd‐MWCNT‐Ab₂) was applied for detection. Hydrazine was used as a catalyst for the reduction of hydrogen peroxide, which was monitored at ?0.3 V vs. Ag/AgCl. The calibration plots showed a linear range of 0.1–10 ng/mL with a detection limit of 0.084±0.004 ng/mL. The proposed immunosensor was evaluated for clinical applications in a rabbit serum sample.     

Amperometric Immunosensor for Prostate Specific Antigen Based on Gold Nanoparticles/Ionic Liquid/Chitosan Hybrid Film

The hybrid film of gold nanoparticles/ionic liquid-chitosan (GNP/IL-Ch) was first prepared by a simple one-step synthesis and used as an efficient immobilization matrix to fabricate an immunosensor. The GNP/IL-Ch film not only prevents the leakage of the IL units, but also produces a well-defined voltammetric signal due to the synergistic effects of the IL units and GNPs. By immobilizing an alkaline phosphatase (ALP)-labeled antibody in GNP/IL-Ch film, a sensitive amperometric immunosensor has been developed for prostate specific antigen (PSA). Under the optimized conditions, the immunosensor exhibits a linear range from 1.0 to 80 ng mL^?1 of PSA.     

基于带强负电性物质作电极界面的电流型转铁蛋白免疫传感器的研究

将角叉胶、溶胶—凝胶与碳粉相结合,构成了一种具有强负电性可更新电极界面,用于静电吸附固定免疫材料,研制成一种安培型转铁蛋白免疫传感器。研究了电极膜组成、工作电位、底物pH、酶标转铁蛋白浓度及培育时间等实验条件对响应电流的影响。响应电流与转铁蛋白浓度在1．5～60mg／L范围呈线性关系：检出限为1．5mg／L。将传感器初步用于人血清中转铁蛋白的测定,结果良好。