基于多壁碳纳米管-硫堇/Nafion纳米复合物修饰的人IgG免疫传感器的研究

制备了基于多壁碳纳米管-硫堇/Nafion纳米复合物的人IgG免疫传感器.阻抗谱、循环伏安研究表明,该免疫传感器对人IgG的检测具有优异的性能,其对人免疫球蛋白G(IgG)浓度的定量测定线性范围为1.0 ～ 200μg/L,检出限为0.25 μg/L,线性相关系数R=0.9950.该免疫传感器可用于对人血清中IgG的检...     

一种新的测定痕量IgG的纳米金标免疫共振散射光谱探针

在pH8.5条件下，用粒径为9nm的金纳米微粒标记羊抗人IgG获得IgG金标免疫探针。在pH5.8磷酸氢二钠-柠檬酸缓冲溶液中及聚乙二醇存在下，金标记羊抗人IgG与人IgG产生特异性结合,羊抗人IgG包裹的金纳米微粒释放出来，聚集形成较大的微粒，导致体系在580 nm处的共振散射峰增强。IgG浓度在1.3~1.5×10³ ng·mL^-1范围内与580 nm处的共振散射光强度增加值呈线性，方法的检出限为0.78ng.mL^-1。该法用于定量分析人血清IgG,，简便快速，结果令人满意。     

血清中的抑癌多肽

血清中的抑癌多肽具有体外杀伤癌细胞的生物学活性,而对骨髓细胞影响甚小.其分子由十余种氨基酸组成.估计分子量2,500左右.血清中抑癌多肽可制成结晶,结晶后仍保持有抑癌活性.用血清抑癌多肽免疫家兔可获得抗血清及相应的IgG.用反向间接血凝法检测其在某些器官细胞中的分布,结果表明,血清抑癌多肽在脾细胞中的含量最高,在肝细胞、癌细胞及肌肉中含量极低.这一结果提示,血清抑癌多肽的来源与脾脏密切相关。     

免疫纳米金催化氯金酸与盐酸羟胺反应：共振散射光谱检测超痕量免疫球蛋白G

用粒径为10nm的金纳米粒子标记羊抗人IgG抗体获得纳米金标记羊抗人IgG抗体（AuGIgG）．在pH2．27的柠檬酸钠-盐酸缓冲溶液中,AuGIgG对氯金酸-盐酸羟胺生成较大粒径金颗粒这一慢反应具有较强的催化作用,该金颗粒在796nm处有一个较强的共振散射峰．在一定条件下,AuGIgG与IgG发生特异性结合生成纳米金免疫复合物,以16000r·min^-1速度离心分离获得未反应的AuGIgG,以它作催化剂催化氯金酸-盐酸羟胺反应生成较大粒径金颗粒,用共振散射光谱做检测技术,建立了测定IgG的免疫共振散射光谱新方法．结果表明,随着IgG浓度增大,离心溶液中AuGIgG浓度降低,I796mn线性降低,其降低值△I796mn与IgG浓度在0．08-16．0ng·mL^-1范围内呈良好线性关系,检出限为0．02ng·mL^-1.本法具有灵敏度高、选择性好和快速等特点,用于定量分析人血清IgG,结果满意．     

脑血栓形成病人用精制蝮蛇抗栓酶治疗前后微量元素和体液免疫的变化及临床疗效的观察

用精制蝮蛇抗栓酶(Svate-3)治疗了108例急性期脑血栓形成病人,治疗前后分别测定病人血清微量元素锌、铜、铬、锰、硒及体液免疫指标 IgG, IgA, IgM及循环免疫复合物(CIC), 同时设定对照组观察 Svate-3的临床疗效.观察结果表明,治疗组疗效优于对照组.测定结果表明,Svate-3能使脑血栓病人血清 Zn增加(P＜0.05),血清 Cu减少(P＜0.05 ), Zn/Cu比值增加(P＜0.05),Svate-3可使体液免疫 IgA增加(P＜0.01) .     

以膨胀石墨为基底的聚吡咯电化学免疫传感器

用恒电位法在膨胀石墨基底表面合成聚吡咯,聚吡咯上的亚氨基与戊二醛发生交联,制备成稳定的膨胀石墨/聚吡咯/戊二醛传感器界面.以此界面固定人IgG抗体,戊二醛作为交联剂,发展了一种新型的电化学免疫传感器.该传感器在IgG溶液中温育后,其表面结合的IgG和随后加入的辣根过氧化氢酶(HRP)标IgG二抗以及传感器表面的IgG抗...     

Application of Colloidal Gold to Fluorophotometric Determination of Human IgG

A method for the determination of human immunoglobulin G(IgG) based on a colloidal gold label by fluorospectrophotometry was developed. The sandwich immunoreaction among goat-anti-human IgG, human IgG and goat-anti-human IgG labeled with colloidal gold nanoparticles was applied in this experiment. First, a sandwich immunocomplex was formed on the surface of 96 well clear polystyrene high bind stripwellTM microplate. After the formation of the sandwich immunocomplex, a solution was added to dissociate the immunocomplex at room temperature. Then the solution of each well was transferred into the corresponding test tube. Thirdly, the rhodamine B solution was injected into each test tube. The rhodamine B chloraurate was extracted into ether that was measured with a spectrofluorometer. The experimental results indicate that the fluorescence intensity increased with the increase of human IgG concentration. The fluorescence intensity of rhodamine B chloraurate at 570 nm was proportional to the logarithm of human IgG concentration in a range from 10 to 5×105 ng/mL. It was shown that the determination of human IgG was easily made with the proposed fluorospectrophotometry.     

丽春红G 用于人血清样品中总蛋白的共振光散射测定

在酸性介质中 ,丽春红G (PonceauG ,PG)与牛血清白蛋白 (BSA)、人血清白蛋白 (HSA)、溶菌酶 (Lys)及γ 球蛋白 (γ IgG)等蛋白质作用产生共振光散射 (RLS)增强信号 ,最大散射峰位于 2 88nm处。在最佳酸度和离子强度下 ,增强RLS强度在 2 88nm处与蛋白质的浓度呈线性关系 ,用于测定BSA、HSA、Lys、γ IgG的检出限均在 2 5 μg L以下。本方法成功地应用于合成样和人血清样品的测定 ,测量结果与考马斯亮蓝法一致     

A New Nanogold-Labeled Immunoresonance Scattering Spectral Probe for Determination of Trace IgG

A kind of 9 nm gold nanoparticles was prepared with the trisodium citrate and used to label goat anti-human IgG to obtain an IgG immunoresonance scattering spectral probe. In pH 5.8 buffer solution and in the presence of polyethylene glycol （PEG）, the immune reaction between gold-labeled goat anti-human IgG and IgG took place, and the resonance scattering intensity at 580 nm （I580nm） was enhanced greatly. The enhanced intensity AIRS is pro- portional to the IgG concentration from 1.3 to 1.5 X 10^3 ng.mL^-1, with a detection limit of 0.78 ng.mL ^-1. This assay showed high sensitivity and good selectivity for quantitative determination of IgG in human serum, with satisfactory results.     

金纳米簇信号放大的电化学免疫传感器

通过抗原抗体的特异性识别作用以及金纳米簇(AuNCs)探针和金标银染的双重信号放大作用,构建了一种新的电化学免疫传感器,对人的免疫球蛋白(IgG)进行了检测。受贻贝分泌的黏附蛋白启示,首先将聚多巴胺薄膜修饰在铟锡氧化物电极(ITO)上,并对一抗抗体进行固定,通过观察电化学阻抗的变化来监控免疫传感器的构建过程。将待检测的IgG抗原组装在该电极上并与AuNCs标记的二抗反应,最后经银染反应,用溶出伏安法对IgG的含量进行定量检测,其灵敏度达到0.5 ng/L。该方法可应用于实际血清样品中IgG含量的测定。     

Study on the immobilization of anti-IgG on Au-colloid modified gold electrode via potentiometric immunosensor, cyclic voltammetry, and electrochemical impedance techniques

The immobilization of anti-IgG on Au-colloid modified gold electrodes has been investigated. A cleaned gold electrode was first immersed in a mercaptoethylamine (AET) solution, and then gold nanoparticles were chemisorbed onto the thiol groups of the mercaptoethylamine. Finally, anti-IgG was adsorbed onto the surface of the gold nanoparticles. Potentiometric immunosensor, cyclic voltammetry, and electrochemical impedance techniques were used to investigate the immobilization of anti-IgG on Au colloids. In the impedance spectroscopic study, an obvious difference of the electron transfer resistance between the Au-colloid modified electrode and the bare gold electrode was observed. The cyclic voltammogram tends to be more irreversible with increased anti-IgG concentration. Using the potentiometric immunosensor, the proposed technique is based on that the specific agglutination of antibody-coated gold nanoparticles, averaging 16 nm in diameter, in the presence of the corresponding antigen causes a potential change that is monitored by a potentiometry. It is found that the developed immunoagglutination assay system is sensitive to the concentration of IgG antigen as low as 12 ng mL(-1). Experimental results showed that the developed technique is in satisfactory agreement with the ELISA method, and that gold nanoparticles can be used as a biocompatible matrix for antibody or antigen immobilization.     

一种基于纳米二氧化硅增强凝集反应的压电免疫传感器

本文提出了一种基于抗体包被纳米粒子的简单快速的压电免疫凝集法,用于蛋白质检测。该方法原理是利用羊抗人IgG（G-anti-hIgG）包被的二氧化硅（或金）纳米粒子和人IgG（hIgG）发生免疫凝集反应而使得压电晶体频率发生改变进行测定。当凝集反应发生时,修饰在探针表面的G-anti-hIgG通过hIgG与G-anti-hIgG包被的纳米粒子结合,将质量效应和粘弹性因素叠加作用于压电晶体。结果表明这使得背景值大幅减小而信号明显增强。另外,对修饰后了抗体及结合免疫复合物的探针表面进行了SEM表征,对使用聚乙二醇作为增敏剂和实验最佳离子强度、pH值进行了优化选择。该传感器检测hIgG线性范围是0.26-16.7 mg mL-1,最低检出限为84 ng mL-1。     

Quartz crystal microbalance detection of DNA single-base mutation based on monobase-coded cadmium tellurium nanoprobe

A new method for the detection of point mutation in DNA based on the monobase-coded cadmium tellurium nanoprobes and the quartz crystal microbalance (QCM) technique was reported. A point mutation (single-base, adenine, thymine, cytosine, and guanine, namely, A, T, C and G, mutation in DNA strand, respectively) DNA QCM sensor was fabricated by immobilizing single-base mutation DNA modified magnetic beads onto the electrode surface with an external magnetic field near the electrode. The DNA-modified magnetic beads were obtained from the biotin-avidin affinity reaction of biotinylated DNA and streptavidin-functionalized core/shell Fe(3)O(4)/Au magnetic nanoparticles, followed by a DNA hybridization reaction. Single-base coded CdTe nanoprobes (A-CdTe, T-CdTe, C-CdTe and G-CdTe, respectively) were used as the detection probes. The mutation site in DNA was distinguished by detecting the decreases of the resonance frequency of the piezoelectric quartz crystal when the coded nanoprobe was added to the test system. This proposed detection strategy for point mutation in DNA is proved to be sensitive, simple, repeatable and low-cost, consequently, it has a great potential for single nucleotide polymorphism (SNP) detection.     

Sensitive amplification immunoassay for human IgG and anti-human IgG by using an enzyme cascade system

A sensitive heterogeneous immunoassay for human IgG and anti-human IgG was developed using an enzyme cascade system in limulus amoebocyte as a signal amplification system. Lipopolysaccharide (LPS) was conjugated to human IgG and anti-human IgG was adsorbed on polystyrene beads. The LPS-labelled human IgG mixed with unlabelled human IgG was allowed to react in a competitive manner with the immobilized anti-IgG on the polystyrene bead surface. After B/F separation, the LPS activity in the supernatant (free) and LPS activity on the bead (bound) were measured by using the chromogenic limulus test. IgG could be measured in the range 10^?7-10^?11 g ml^?1. LPS-labelled anti-IgG and IgG absorbed on polystyrene beads were prepared, and LPS-labeled anti-IgG mixed with unlabelled anti-IgG was allowed to react again in a competitive manner with solid-phase IgG. The LPS activity specifically bound to the bead was then measured. Anti-IgG could be measured in the range 10^?7-10^?11 g ml^?1.     

Piezoelectric immunosensor based on magnetic nanoparticles with simple immobilization procedures

A novel method for immobilizing antibodies (antigens) based on magnetic nanoparticles has been proposed for piezoelectric immunoassay. The goat-anti-IgG antibody (IgGAb) as the model analyte was first covalently immobilized to magnetic nanoparticles, which were surface modified with amino-groups. The magnetic bio-nanoparticles (MBN-s) formed were attached to the surfaces of quartz crystal with the help of a permanent magnet. The detection of immunoglobulin G (IgG) was performed with the sensor prepared. The process of immobilization and immunoreaction was monitored by frequency recording. From the SEM images of the sensor surface before and after immobilization of MBN, one can see that the MBN was homogeneously adsorbed on sensor surface. The piezoelectric immunosensor can determine IgG in the range of 0.6-34.9 μg ml⁻¹ with a detection limit of 0.36 μg ml⁻¹. The MBN and immunocomplex layer can easily be removed simply by taking away the magnetic field, making the piezoelectric sensor easy to be regenerated.     

Spectral and fluorescent kinetics features of Nd3+ ion in Nb2O5, Ta2O5 and La2O3 mixed lithium zirconium silicate glasses

A sensitive competitive flow injection chemiluminescence (CL-FIA) immunoassay for immunoglobulin G (IgG) was developed using gold nanoparticle as CL label. In the configuration, anti-IgG antibody was immobilized on a glass capillary column surface by 3-(aminopropyl)-triethoxysilane and glutaraldehyde to form immunoaffinity column. Analyte IgG and gold nanoparticle labeled IgG were passed through the immunoaffinity column mounted in a flow system and competed for the surface-confined anti-IgG antibody. CL emission was generated from the reaction between luminol and hydrogen peroxide in the presence of Au (III), generated from chemically oxidative dissolution of gold nanoparticle by an injection of 0.10 mol L⁻¹ HCl–0.10 mol L⁻¹ NaCl solution containing 0.10 mmol L⁻¹ Br₂. The concentration of analyte IgG was inversely related to the amount of bound gold nanoparticle labeled IgG and the CL intensity was linear with the concentration of analyte IgG from 1.0 ng mL⁻¹ to 40 ng mL⁻¹ with a detection limit of 5.2 × 10⁻¹⁰ g mL⁻¹. The whole assay time including the injections and washing steps was only 30 min for one sample, which was competitive with CL immunoassays based on a gold nanoparticle label and magnetic separation. This work demonstrates that the CL immunoassay incorporation of nanoparticle label and flow injection is promising for clinical assay with sensitivity and high-speed.     

Ultrasensitive Immunoassay Based on Amplified Inhibition of the Electrochemical Stripping Signal of Silver Nanocomposite by Silica Nanoprobe

A silver nanocomposite was one‐step synthesized in chitosan solution and used to prepare an immunosensor with the aid of gold nanoparticles (Au NPs) assembly. The Ag NPs at the immunosensor exhibited sensitive electrochemical stripping signal in KCl solution. After a sandwich immunoreaction, the current response of the immunosensor decreased due to the formation of antibody‐antigen immunocomplex on its surface, which was greatly amplified by the captured silica nanoprobes and thus enabled an ultrasensitive electrochemical immunoassay method. This method showed excellent analytical performance for human IgG measurement including wide linear range, low detection limit, cheap cost, satisfactory reproducibility and stability.     

Fluorescence immunological determination of immunoglobulin G in human serum by high-performance liquid gel-permeation chromatography

Summary A high-performance liquid gel-permeation chromatographic method is described for the determination of human serum immunoglobulin G (IgG) by separating the fluorescent immuno complex from the free fluorescence-labeled antibody. Fluorescence-labeled antibody used in this study was fluorescein isothiocyanate (FITC)-labeled Fab fragment goat anti-human IgG (anti-IgG Fab). Immuno complexes and antibody of different molecular sizes can be separated. FITC-labeled anti-IgG Fab was added to the serum and the mixture is passed through the column. An immuno complex separates as well-delineated peak in the column void volume, and was measured by the fluorescence of the column eluate (Ex=490nm, Em=520nm). The total analysis time for a serum sample was approximately 15min. The minimum detection limit was 25 mg/dl. The relative standard deviation was below 2% (peak area). The results of the HPL-GPC analysis correlate well with those obtained by laser nephelometric assay (r=0.992).     

普鲁士蓝增敏压电均相免疫分析法测定免疫球蛋白G

建立了普鲁士蓝增敏的均相压电免疫分析法,用于人尿液中免疫球蛋白G(IgG)的检测.本方法以蛋白质为种子,形成蛋白质-普鲁士蓝粒子,该粒子不断“滚雪球”增大,使得压电检测信号明显放大.在pH 4.0、盐浓度0.1 mol/L,5 mmol/L FeC13,2.5 mmol/L K4Fe(CN)6(K4Fe(CN)6与蛋白浓度比≥5000),FeCl3加样速度为0.5 μL/s的优化条件下,IgG的检测范围为0～625 nmol/L;检出限为2.4 nmol/L.α1-微球蛋白,β2-微球蛋白、尿微量白蛋白均无明显干扰.本方法用于临床样本的IgG测定,并与免疫比浊法进行对比,两者结果一致,表明本方法可行.     

Amperometric sandwich-type aptasensor based on peroxidase mimetic Au@Pt for the carcinoembryonic antigen

For sensitive analysis of cancer biomarker carcinoembryonic antigen (CEA), an amperometric sandwich-type aptasensor is proposed based on a signal amplification strategy of Au@Pt bimetallic nanoprobes. As the excellent catalytic activity to hydrogen peroxide (H₂O₂), core-shell Au@Pt nanoparticles are employed as nanoprobes by conjugating directly with the secondary aptamer of CEA (Apt-II). Due to the synergic recognition effect of dual aptamers and the excellent catalytic activity of nanoprobes, this amperometric sandwich-type aptasensor for CEA exhibits high specificity and good sensitivity with a limit of detection of 0.31 ng/mL, along with a wide linear range from 0.1 ng/mL to 100 ng/mL.