无机纳米粒子作为生物探针在生物分析中的研究进展

介绍了无机纳米粒子在生物分析领域的研究进展分别从生物分子与纳米粒子的耦联方式、检测生物分子的纳米金探针、核酸或蛋白质修饰的其它纳米探针以及生物纳米技术的应用前景4个方面对该领域的发展进行了概述。     

纳米金杂化酶研究进展

随着纳米技术和生物技术的发展,将纳米颗粒材料与天然酶结合起来构建纳米杂化酶,可以解决酶的负载量低、活性和稳定性不好等问题.目前,新型纳米颗粒材料-纳米金被广泛应用于构建杂化酶体系.我们将从纳米金杂化酶的种类、制备方法、优势以及应用等方面对纳米金杂化酶的研究进展进行概述.     

Noble metal nanoparticles functionalized by natural asphaltenes as model phases for geochemical research

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Smart,self-repair polymers based on acryloyl-6-aminocaproic acid and modified with magnetic nanoparticles—preparation and characterization

Capability of materials to self-repair is an innovative and unique property from a point of view both chemistry and physics. Moreover, such property could arouse special interests if such an ability could be caused by the selection of the environmental parameters. Such materials—polymers based on acryloyl-6-aminocaproic acid (A6ACA)—were synthesized in the present paper. In addition, mentioned polymers have been modified with different amount of magnetic nanoparticles solution. Subsequently, sorption capacity and behavior of synthesized polymers in simulated body fluids have been determined. What is also important, studies on cytotoxicity of prepared materials in relation to fibroblasts and cells of cancer origin have been conducted. Materials have also been analyzed by Fourier transform infrared spectroscopy and scanning electron microscopy method. Based on the research aiming at physicochemical characteristics of abovementioned materials it was proved that prepared hydrogels showed self-repair property in a low pH environment. Apart from this essential issue, these were characterized by high sorption capacity, high porosity which decreases with the introduced amount of nanoparticles and, what is important, cytotoxicity to cancer cells. Such combination is a very interesting from a point of view of many realms and due to its unique features may be widely applicable in the nearest future.     

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.     

L-半胱氨酸/漆酶修饰的纳米金阴极对氧还原的电催化

以四氯金酸和L-半胱氨酸为原料,合成了L-半胱氨酸功能化纳米金粒子,将此纳米粒子修饰在金盘电极表面并共价偶联漆酶分子。 以循环伏安法研究了此固定漆酶电极在无氧磷酸盐缓冲液中电化学行为和催化氧还原能力,并进一步评估了其作为氧传感器使用的性能：以计时电流法测定其对氧气的检测限,与氧气的亲和力（以米氏常数表征）,研究了传感器的长期使用性、热稳定性和pH-催化电流关系。 结果表明,此固定漆酶电极可以实现漆酶活性中心T2与导电纳米粒子间的直接电子迁移而无需任何外加电子中介体（氧化还原峰的式电位为192.5 mV vs AgCl/Ag）,并在接近漆酶活性中心T3氧化还原式电位（780 mV vs NHE）附近发生氧还原;测得的固酶电极与氧气的亲和力较高（米氏常数为216.4 μmol/L）且检测限低达0.22 μmol/L,在4 ℃下保存60 d后活力仍然保持初始活力的大约78%。 但这种电极的热稳定性较差,受pH值影响较明显,在pH值近于生理条件时几乎完全丧失活力。     

A New Nanocatalytic Spectrophotometric Assay for Cationic Surfactant Using Phosphomolybdic Acid‐Formic Acid‐Nanogold as Indicator Reaction

In the pH 7.4 Na₂HPO₄‐NaH₂PO₄ buffer solution, the cationic surfactant (CS) interacted with nanogold particles (NG) to form NG aggregations (NGA) that resulted in its color changing from wine red to blue‐violet. NG has a strong catalysis on the formic acid‐phosphomolybdic acid (PMo) colored reaction, but that of the NGA catalysis is weak. With the increase of CS concentration, the NGA increased and the NG decreased, the catalysis decreased and the absorption value at 700 nm decreased linearly. The concentrations of 6.25–250 nmol/L tetradecyl dimethyl benzyl ammonium chloride (TDBAC), 0.625–250 nmol/L cetyltrimethyl ammonium bromide (CTMAB) and 12.5–500 nmol·L^?1 dodecyldimethylbenzyl ammonium chloride (DDBAC) had good linear responses to the decreased absorption value (ΔA_{700 nm}), with molar absorption coefficients of 2.2×10⁶, 2.1×10⁶ and 9×10⁵ L·mol^?1·cm^?1 respectively. This method was simple, highly sensitive and low‐cost.     

壳聚糖-纳米金复合膜修饰电化学发光免疫传感器检测人免疫球蛋白G

利用壳聚糖与纳米金良好的生物相容性及蛋白固定能力,制备了兼具导电性和透光性的人免疫球蛋白G(IgG)修饰膜,用于修饰玻碳电极,研制了新型电化学发光免疫传感器,并通过扫描电镜(SEM)及交流阻抗技术(EIS)考查了传感器表面性质.基于竞争免疫分析模式,以Ru(bpy)32+标记的羊抗人IgG为发光示踪物,采用新型共反应剂二丁基乙醇胺(DBAE)对光信号进行放大,建立了人IgG的检测方法,线性范围20ngmL-1～1.0μgmL-1,检测限6.5ngmL-1.将该电化学发光传感器应用于人血中IgG的检测,结果令人满意.     

多氢键反应-纳米金共振散射光谱法测定三聚氰胺

在pH 7.0的磷酸盐缓冲溶液中,氯金酸被3,5-二羟基苯甲酸(DBA)还原生成的金纳米粒子在610nm处产生一个较强的共振散射峰;当有三聚氰胺(MA)存在时,DBA与MA形成多氢键化合物而不能还原氯金酸,导致610 nm处共振散射峰的强度降低.三聚氰胺的浓度在5.0×10 -6～4.0×10-5 mol·L-1范围内...