基于免疫胶体金标记技术的检测研究及其在堆肥中的应用展望

金纳米颗粒作为一种性能优异的标记物应用广泛.随后发展出来的免疫胶体金标记技术作为一种灵敏度高、操作步骤简便、检测快速的免疫反应检测技术得到广泛关注.本文介绍了免疫胶体金标记技术的基本原理、制备方法并详述了近年来该技术的新发展.此外,结合免疫胶体金标记技术在免疫检测与环境检测实际工作中的应用,展望了其在堆肥环境检测中的应用潜力和发展前景.     

食品安全现场快速检测技术研究进展及应用

介绍了快速检测技术,包括:化学比色法、酶联免疫法、免疫胶体金试纸、生物芯片、生物传感器、便携式色谱质谱联用仪、生物化学发光检测仪等在食品现场快速检测中的研究进展及应用,探讨了食品快速检测的发展方向.     

中药中真菌毒素快速检测技术研究进展及应用北大核心CSCD

真菌毒素污染是中药外源性有害残留物污染的主要方面之一,其污染的广泛性、隐蔽性和危害性严重影响了中药的品质与安全。随着中药全产业链中真菌毒素安全控制要求的不断提高,现场快速检测需求不断增加,快速检测技术在真菌毒素分析领域得到越来越多的关注与应用,并逐渐成为大型仪器分析技术的有益补充。该文综述了近年来快速检测技术在中药真菌毒素检测领域的最新研究进展,聚焦于应用较为广泛的酶联免疫吸附法、胶体金免疫层析法以及基于生物传感器的快速检测技术,并介绍了新型纳米材料在相关技术中发挥的功能性作用。通过系统比较不同快速检测技术的优缺点、适用场景和发展趋势,以期为中药中真菌毒素快检方法的开发与应用提供参考。     

基于甲基苯丙胺和吗啡的胶体金免疫层析试剂盒检测法的可靠性评价

通过固相萃取-液相色谱-多级质谱(SPE-LC-MS/MS)联用技术和毒品胶体金免疫层析试剂盒检测法对13种中药及调味品样品中甲基苯丙胺及吗啡分别进行定量分析,依据LC-MS/MS检测结果,对毒品胶体金免疫层析试剂盒检测法进行可靠性评价。实验结果表明:型号1试剂盒对甲基苯丙胺和吗啡的特异性均不高,检测准确率分别为57.7%与78.8%;型号2试剂盒对甲基苯丙胺的特异性不足,准确率为73.1%,但对吗啡的检测准确率达到100%。在利用毒品胶体金免疫层析试剂盒进行毒品快速筛查时,应注重排除干扰因素以提高免疫胶体金层析试剂盒的检测准确度。     

胶体金免疫层析法快速检测三聚氰胺

采用戊二醛法制备三聚氰胺-BSA偶联抗原,胶体金标记三聚氰胺单克隆抗体,建立了检测三聚氰胺的胶体金免疫层析试验。结果显示,该试验具有良好的敏感性,胶体金免疫层析试验对鲜奶、奶粉和饲料样品中三聚氰胺的最低检测量分别为1.0、2.0和2.5μg/g,该法适合现场快速检测三聚氰胺。     

胶体金免疫层析方法快速检测腹泻性贝毒软海绵酸的初步研究

建立了赤潮毒素腹泻性贝毒软海绵酸的快速胶体金免疫层析检测方法。通过细胞融合,制备抗软海绵酸单克隆抗体,胶体金标记抗体,建立快速检测软海绵酸的免疫层析试纸条方法。检出限500 ng/mL(50 ng/条),探讨了影响测试方法的因素和提高灵敏度的可能手段。     

猪肉中1-氨基乙内酰脲的胶体金免疫层析法快速检测

基于免疫竞争胶体金免疫层析原理,研制了检测食用肉中呋喃妥因代谢物1-氨基乙内酰脲(AHD)的免疫试纸条。用柠檬酸钠还原法制备胶体金颗粒,标记抗1-氨基乙内酰脲的衍生物(CPAHD)的单克隆抗体并喷于玻璃纤维上,CPAHD-BSA(Bovine serum albumin)抗原和羊抗鼠IgG分别结合于硝酸纤维膜上,依次将样品垫、胶体金垫、硝酸纤维素膜和吸水纸组装切割成AHD胶体金免疫层析快速检测试纸条。在5 min内肉眼观察结果,该试纸条对AHD的最低检测限为2.33μg/L,除与呋喃妥因有弱交叉反应外,与其他同类物均无交叉反应,用该试纸条和ELISA(Enzyme linked immunosorbent assay)检测猪肉中添加的AHD,结果呈现很好的相关性。该方法灵敏度高,简便快速,无需特殊仪器设备,可作为呋喃妥因残留批量检测的筛选方法。     

胶体金免疫层析法快速检测牛奶、奶粉、饲料中的三聚氰胺

建立了快速检测牛奶、奶粉、饲料样品中三聚氰胺的胶体金免疫层析分析法。将三聚氰胺进行分子修饰得到两种衍生物,分别与牛血清白蛋白(BSA)和卵清白蛋白(OVA)相连制得免疫原和包被抗原。运用杂交瘤抗体制备技术得到抗三聚氰胺的单克隆抗体(mAb)。利用柠檬酸三钠还原法制得平均粒径18 nm的胶体金,将胶体金与抗三聚氰胺单克隆抗体相连,所形成的金标抗体(Au-mAb)包被在胶体金垫上,包被抗原和羊抗鼠二抗分别包被在硝酸纤维素膜(NC)上作为检测线(T线)和质控线(C线)。将胶金垫、NC膜、样品垫和吸水纸组装成免疫层析快速检测试剂条。将标准溶液(或待测液)滴加到样品垫上,10 min后可在NC膜C线和T线位置上用肉眼观察到胶体金的颜色(红色),通过比对颜色的深浅判断样品中三聚氰胺的含量。结果表明,三聚氰胺的检出限为10μg/L;选用了其它10种物质对免疫层析试剂条进行了特异性实验,免疫层析试剂条与2-氯-4,6-二氨基-1,3,5-三嗪和环丙氨嗪的交叉反应率约为1%,与其它8种物质没有交叉反应;加标样品用免疫层析试剂条和酶联免疫吸附分析法(ELISA)同时检查,结果一致。本方法适用于牛奶、奶粉、饲料样品中三聚氰胺的现场快速检测。     

“是金子总会发光”——金及其化合物在新冠病毒检测及治疗中的应用

胶体金、金配合物在新型冠状病毒的检测与药物研发中发挥着重要的作用。本文采用生动的语言、拟人化的方式，从金元素的角度讲述了免疫胶体金技术检测新冠的原理和金配合物作为抗新冠药物的发现过程。     

氟苯尼考胶体金免疫层析定量检测方法的建立

建立了定量检测氟苯尼考的胶体金免疫层析方法.对胶体金标记抗体时溶液pH和抗体浓度、金标抗体用量、检测线上抗原浓度以及检测时间进行了优化.采用胶体金试纸条读取仪测定试纸条检测线和质控线的信号强度,以标准品的浓度为横坐标,阳性样本和阴性样本的检测线/质控线的信号比值(Bx/B0)为纵坐标建立标准曲线.结果表明,胶体金免疫层析试纸定量检测氟苯尼考的线性范围为0.1~1.5 ng/mL,检出限为0.08 ng/mL,检测时间为15 min.本方法具有简便、快速和可定量等特点,适于大批量样品的现场筛查.     

五氯酚免疫层析检测试纸条的研究

利用胶体金免疫层析技术建立了一种快速检测五氯酚(PCP)残留的方法。采用柠檬酸三钠还原法制备大小一致、分布均匀、粒径为20 nm的胶体金颗粒,以此标记五氯酚抗体,制备金标抗体。将五氯酚包被抗原和羊抗鼠二抗分别结合于硝酸纤维膜上,依次将型号Millipore135硝酸纤维膜、型号VL78金标垫、型号SB06样品垫及吸水纸组装于PVC底板上,组装成胶体金免疫层析检测试纸条。通过试纸条上颜色的深浅,检测样品中PCP的残留量。试纸条检出限为10 ng/mL,检测时间为5 min。该方法检测所需试剂已预先包被在试纸条上,操作简单、重复性好、成本低廉,可用于五氯酚的现场快速检测。     

Solution-based direct readout surface enhanced Raman spectroscopic (SERS) detection of ultra-low levels of thiram with dogbone shaped gold nanoparticles

We report the use of two different sizes of dogbone shaped gold nanoparticles as colloidal substrates for surface enhanced Raman spectroscopy (SERS) based detection of ultra-low levels of thiram, a dithiocarbamate fungicide. We demonstrate the ability to use a solution based, direct readout SERS method as a quantitative tool for the detection of ultra-low levels of thiram. The two different sizes of dogbone shaped gold nanoparticles are synthesized by using the seed-mediated growth method and characterized by using UV-visible spectroscopy and transmission electron microscopy (TEM). The smaller dogbone shaped nanoparticles have an average size of 43 ± 13 nm. The larger dogbone shaped gold nanoparticles have an average size of 65 ± 15 nm. The nanoparticle concentration is 1.25 × 10(11) nanoparticles per mL for the smaller dogbone shaped gold nanoparticles and is 1.13 × 10(11) nanoparticles per mL for the larger dogbone shaped gold nanoparticles. Different concentrations of thiram are allowed to bind to the two different sizes of dogbone shaped gold nanoparticles and the SERS spectra are obtained. From the calibration curve, the limit of detection for thiram is 43.9 ± 6.2 nM when the smaller dogbone shaped gold nanoparticles are used as colloidal SERS substrates In the case of the larger dogbone shaped gold nanoparticles, the limit of detection for thiram is 11.8 ± 3.2 nM. The lower limit of detection obtained by using the larger dogbone shaped gold nanoparticles as colloidal substrates is due to the lightning rod effect, higher contributions from the electromagnetic enhancement effect, and larger number of surface sites for thiram to bind.     

Colloidal gold-polystyrene bead hybrid for chemiluminescent detection of sequence-specific DNA

A sensitive chemiluminescent (CL) detection of sequence-specific DNA has been developed by taking advantage of a magnetic separation/mixing process and the amplification feature of colloidal gold labels. In this protocol, the target oligonucleotides are hybridized with magnetic bead-linked capture probes, followed by the hybridization of the biotin-terminated amplifying DNA probes and the binding of streptavidin-coated gold nanoparticles; the nanometer-sized gold tags are then dissolved and quantified by a simple and sensitive luminol CL reaction. The proposed CL protocol is evaluated for a 30-base model DNA sequence, and the amount as low as 0.01 pmol of DNA is determined, which exhibits a 150 x enhancement in sensitivity over previous gold dissolution-based electrochemical formats and an enhancement of 20 x over the ICPMS detection. Further signal amplification is achieved by the assembly of biotinylated colloidal gold onto the surface of streptavidin-coated polystyrene beads. Such amplified CL transduction allows detection of DNA targets down to the 100 amol level, and offers great promise for ultrasensitive detection of other biorecognition events.     

Interaction of wheat germ agglutinin with an N-acetylglucosamine-carrying telomer brush accumulated on a colloidal gold monolayer

A disulfide-carrying telomer with many pendent N-acetylglucosamine (GlcNAc) residues (Cys-PMHGlcNAc) was obtained by photo-polymerization of 1-(6'-methacryloylaminohexyl)-2-N-acetoamido-2-deoxy d-glucopyranoside) (MHGlcNAc) using a benzyl N,N-diethyldithiocarbamoyl (BDC) derivative that shows abilities of initiation, transfer, and termination (iniferter). The disulfide-carrying telomer was accumulated on a monolayer of colloidal Au on a glass substrate, and the interaction of wheat germ agglutinin (WGA) with GlcNAc residue at the polymer brush-solution interface was examined by using the localized surface plasmon resonance (LSPR) technique. For comparison, an amphiphile carrying many pendent GlcNAc residues was also prepared with MHGlcNAc and a lipophilic radical initiator and was incorporated in a phospholipid liposome to examine interaction of the GlcNAc residue with WGA on the liposome surface using turbidity measurements. Both the colloidal gold optical device and the liposome showed a concentration-dependent specific binding of WGA, and the GlcNAc-carrying liposome had a detection limit of 100 nM for WGA, whereas that of the colloidal gold device was 10nM. The sugar-carrying telomer-coated device examined here is not only useful as a simple biosensor chip but is also expected to expand our knowledge of bio-related phenomena at the liquid-telomer brush interfaces on a colloidal Au.     

2D "soap"-assembly of nanoparticles via colloid-induced condensation of mixed Langmuir monolayers of fatty surfactants

We describe a new type of colloidal 2D gels formed in mixed Langmuir monolayers of stearic acid and octadecylamine on a surface of gold hydrosol. The adsorption of gold nanoparticles on the mixed monolayer led to an increase of interactions between oppositely charged surfactants giving a "soap" of mixed fatty salt. The observed effect is equivalent to a virtual "cooling" of floating monolayer, which undergoes rapid condensation on a surface of aqueous colloid. The consequent shrinking and rearrangement of the monolayer resulted in aggregation of nanoparticles into colloidal 2D "soap"-gels, which represented arrested colloidal phases within nonadsorbing organic medium. When sequentially deposited onto solids by Langmuir-Blodgett technique, the 2D "soap"-gels separated into organic and colloidal phases and gave dendrite-like bilateral organic crystallites coated with gold nanoparticles. The reported colloidal "soap"-assembly can offer a new opportunity to design 2D colloidal systems of widely variable chemistry and structures.     

Changes in the shape and mobility of colloidal gold nanorods with electrospray and differential mobility analyzer methods

The potential of the electrospray technique in analyzing the structure of nonspherical colloidal particles that are below 100 nm in volume-equivalent diameter was demonstrated by online size measurement using a differential mobility analyzer (DMA) with a condensation nucleus counter (CNC) system. The measured mobility of gold nanorods was confirmed by electron microscope images and the theoretical calculation of particle mobility using the dynamic shape factor and slip correction factor. To evaluate the mobility, rod particles were modeled as both a cylinder and a prolate spheroid. This study also showed that the organic surfactant coated on rod particles might be removed and that the rod particles became spherical upon the elevation of the ambient temperature during the gas-phase dispersion of colloidal nanoparticles. Moreover, the thickness of the surfactants coated on rod particles was estimated by comparing the theoretically and experimentally obtained mobilities.     

Colloid Au-enhanced DNA immobilization for the electrochemical detection of sequence-specific DNA

We use colloidal Au to enhance the DNA immobilization amount on a gold electrode and ultimately lower the detection limit of our electrochemical DNA biosensor. Self-assembly of approximately 16-nm diameter colloidal Au onto a cysteamine modified gold electrode resulted in an easier attachment of an oligonucleotide with a mercaptohexyl group at the 5′-phosphate end, and therefore an increased capacity for nucleic acid detection. Quantitative results showed that the surface densities of oligonucleotides on the Au colloid modified gold electrode were approximately (1–4)×10¹⁴ molecules cm⁻². Hybridization was induced by exposure of the ssDNA-containing gold electrode to ferrocenecarboxaldehyde labeled complementary ssDNA in solution. The detection limit is 5×10⁻¹⁰ mol l⁻¹ of complementary ssDNA, which is much lower than our previous electrochemical DNA biosensors. The Au nanoparticle films on the Au electrode provide a novel means for ssDNA immobilization and sequence-specific DNA detection.