电化学发光免疫传感技术在生物药物分析中的研究进展

随着生物及药物分析领域的不断扩展,发展高灵敏度及高选择性的分析手段以解决复杂样品体系中低浓度待测物的分析测试问题是十分迫切的需求.电化学发光分析方法由于具有线性范围宽,灵敏度高及可控性强等优点,是处理低浓度样品的有效工具.这种方法与免疫传感技术相结合,有利于实现生物体液等复杂样品中极低含量生化物质与药物的高选择性、高灵敏度检测.本文综述了电化学发光免疫传感技术的发展状况,介绍了近年来在电化学发光免疫传感中出现的新型固相载体、电化学发光探针和共反应物、以及多组分免疫传感技术等,并对其在生物药物分析中的应用情况进行了总结.     

电化学发光生物传感技术在快速检测心肌梗死标志物中的研究进展

设计和发展简便、高灵敏、高选择性的分析手段以检测低浓度急性心肌梗死生物标志物是目前临床诊断迫切的需求。 电化学发光分析法由于具有稳定性好、灵敏度高、线性范围宽及可控性强等优点,能有效地进行低浓度样品检测。 该方法与生物传感技术相结合,有利于实现生物体液等复杂样品中极低含量急性心肌梗死生物标志物的快速检测。 本文综述了电化学发光生物传感技术在快速检测心肌梗死标志物中近5年的进展,介绍了电化学发光探针和共反应物,以及多组分生物传感检测技术等,并对其在心肌梗死标志物分析中的应用进行了总结。     

基于多肽识别的电化学生物传感技术

多肽具有分子量小、易于合成、生物兼容性好、稳定性高及序列灵活多样等优点.因此,多肽作为新型生物识别元件,已被广泛应用于生物传感器的构建.电化学分析灵敏度高、准确度好、设备简单、检测范围广且易于操作.本文介绍了基于多肽识别的电化学生物传感器技术,包括多肽的修饰与固定化、多肽与待测物的识别及检测原理;综述了近五年多肽电化学...     

基于石墨烯修饰电极的电化学生物传感

石墨烯是一种具有单原子厚度的二维碳纳米材料,具有大的比表面积、高的导电性和室温电子迁移率,以及优异的机械力学性能.石墨烯还具有电化学窗口宽,电化学稳定性好,电荷传递电阻小,电催化活性高和电子转移速率快等电化学特性.化学修饰石墨烯,特别是氧化石墨烯(GO)和还原氧化石墨烯(rGO),可以被宏量、廉价地制备出来.它们具有可加工性能,可以被组装、加工或复合成具有可控组成和微结构的宏观电极材料.因此,石墨烯及其化学修饰衍生物是用于电化学生物传感的独特而诱人的电极材料.例如,GO是一种化学修饰石墨烯,也是石墨烯的重要前驱体;其边缘具有大量的羧基可用于共价固定酶,从而能实现酶电极的生物检测.在GO上的不可逆蛋白吸附也可以促进蛋白质的直接电子转移以提高其电化学检测性能.但是,GO大量的含氧官能团破坏了石墨烯本征的共轭结构,降低了其电学性能并限制了其实际应用.GO可以通过化学、电化学、热还原等技术转化成rGO,从而能部分修复其共轭结构,提高其导电性与传感性能.另一方面,石墨烯是一种零带隙材料;原子掺杂可以调控其能带结构,提高其电催化性能.石墨烯材料也常常需要通过与其它功能材料的复合进一步改善其可分散与可加工性能,提高其电催化活性和电化学选择性.本文综述了本征石墨烯(包括GO,rGO和掺杂石墨烯)以及石墨烯与生物分子、高分子、离子液体、金属或金属氧化物纳米粒子等复合材料修饰电极在检测各种生物分子方面的研究进展,并对该研究领域进行了展望.     

适配体电化学生物传感器研究进展

由于制备简便、易修饰、稳定性好和结合目标物范围广等特点,基于适配体的生物传感器研究工作一直得到广大科研工作者的关注.本文在阐述适配体基本原理的基础之上,结合近年来电化学适配体生物传感器研究领域的最新研究成果,对电化学技术在适配体生物传感器研究领域中的最新进展作一综述与展望.     

基于石墨烯及其衍生物的生物传感系统

由于石墨烯或其衍生物具有的独特的电、热、机械、光及电化学性能,特别是单层石墨烯或其衍生物极高的载流子迁移率、良好的导电性、高比表面积、易于功能化、强荧光猝灭性和生物分子亲和力,尤适于生物传感系统的构建。本文对近几年来石墨烯及其衍生物在场效应晶体管、电化学、压电晶体、光致发光及电化学发光生物传感系统方面的研究情况进行了综述。     

基于核酸适体的电化学生物传感研究

核酸适体是一类经由指数富集的配体系统进化（SELEX）技术在体外筛选获得的单链寡核苷酸片段,由于具有可人工批量合成、价格低廉、易于功能化修饰、特异性强、亲和力高、免疫原性低、批间差异小、热稳定性好等优良特性,在分析化学、疾病治疗以及生物医学研究等诸多领域备受关注。结合代表性案例,该文综述了核酸适体在电化学生物传感领域的应用。首先简要概述了核酸适体及电化学适体传感器的特点,分类阐述了电化学适体传感器在小分子化合物、蛋白质、外泌体、循环肿瘤细胞（CTCs）以及病原微生物检测中的应用,并重点介绍了相关检测方法的原理、分析特性以及所应用的信号放大策略,最后对电化学适体传感器的发展进行了展望。     

电化学发光成像技术及其在阵列传感分析和潜在指纹成像分析中的应用

电化学发光成像技术作为一种新的生化分析手段,具有设备简单、反应可控、多信息化和可视化等优点. 目前,该技术已被用于便携式、微型化、高通量的电化学发光传感器中,并取得了一系列创新性成果. 本文结合作者课题组的研究进展,简要介绍了电化学发光成像技术在阵列传感分析和潜在指纹检测中的应用,并尝试着展望了今后的发展趋势.     

Electrogenerated chemiluminescence aptamer-based biosensor for the determination of cocaine

A novel electrogenerated chemiluminescence aptamer-based (ECL-AB) biosensor for the determination of a small molecule drug is designed employing cocaine-binding aptamer as molecular recognition element for cocaine as a model analyte and ruthenium complex served as an ECL label. A 5′-terminal cocaine-binding aptamer with the ECL label at 3′-terminal of the aptamer was utilized as an ECL probe. The ECL-AB biosensors were fabricated by immobilizing the ECL probe onto a gold electrode surface via thiol-Au interactions. An enhanced ECL signal is generated upon recognition of the target cocaine, attributed to a change in the conformation of the ECL probe from random coil-like configuration on the probe-modified film to three-way junction structure, in close proximity to the sensor interface. The integrated ECL intensity versus the concentration of cocaine was linear in the range from 5.0 × 10⁻⁹ to 3.0 × 10⁻⁷ M. The detection limit was 1.0 × 10⁻⁹ M. This work demonstrates that the combination of a highly binding aptamer to analyte with a highly sensitive ECL technique to design ECL-AB biosensor is a great promising approach for the determination of small molecule drugs.     

电致化学发光分析法测定苯酚的研究

电致化学发光是指通过电化学方法在电极表面产生一些特殊的物质,这些物质之间或与体系中其它组分之间通过电子传递形成激发态,由激发态返回到基态产生发光现象.     

Direct electrogenerated chemiluminescence detection in high-performance liquid chromatography for determination of ofloxacin

Ofloxacin (OFLX) exhibited strong electrogenerated chemiluminescence (ECL) in NaNO₃ solution with a dual-electrode system when constant current was exerted. Based on this observation, a sensitive direct ECL method coupled with high-performance liquid chromatography (HPLC) separation was developed for determination of OFLX in human serum. Factors affected the ECL emission were investigated. Under the optimal conditions, the ECL intensity has a linear relationship with the concentration of OFLX in the range of 1.0 × 10⁻⁸ to 4.0 × 10⁻⁶ g mL⁻¹ and the detection limit was 4 × 10⁻⁹ g mL⁻¹ (S/N = 3). The proposed method was sensitive, simple and convenient to operate.     

Electrogenerated chemiluminescence aptamer-based method for the determination of thrombin incorporating quenching of tris(2,2-bipyridine)ruthenium by ferrocene

A novel electrogenerated chemiluminescence (ECL) aptamer-based biosensing method for the determination of thrombin was developed on basis of a structure-switching ECL-dequenching mechanism. A thiolated ss-DNA capture probe, composing of a ss-DNA sequence to adopt two distinct structures-a DNA double strand with a complementary DNA sequence tagged with a ECL signal producer tris(2,2^′-bipyridyl)ruthenium derivative and a DNA duplex with a thrombin-binding aptamer tagged with a ECL-quencher ferrocene (FcDNA), was self-assembled onto surface of a gold electrode. In the presence of thrombin, the aptamer sequence prefers to form the aptamer-thrombin complex and the switch of the binding partners occurs in conjunction with the generation of a strong ECL signal owing to the dissociation of FcDNA. The integrated ECL intensity versus the concentration of thrombin was linear in the range from 2.0 × 10⁻¹⁰ M to 2.0 × 10⁻⁷ M. The detection limit was 6 × 10⁻¹¹ M. The relative standard derivation for 2.0 × 10⁻⁹ M was 5.7% (n = 7). This work demonstrates that the sensitivity and specificity of ECL aptamer-based method for proteins can be greatly improved using quenching ECL signal producer by a chemical quencher such as ferrocene.     

流动注射电化学发光测定潘生丁

设计了一种应用于流通体系的电解池,以恒电流电解的方法,在线定量电生化学发光反应试剂次溴酸根。其可在碱性介质理米诺而产生强的化学发光。发现潘生丁对该电化学发光有很强的抑制作用。并建立了潘生丁的电化学发光方法。对影响潘生丁测定的实验条件进行了考察和优化。该方法测定潘生丁的一性范围为０．０１－２ｍｇ／Ｌ,检出限为０．００４ｍｇ／Ｌ,相对标准偏差为４．１％。雇学成功地用于片剂潘生丁样品的分析。     

Electrogenerated chemiluminescence using solution phase and immobilized tris(4,7-diphenyl-1,10-phenanthrolinedisulfonic acid)ruthenium(II)

Electrogenerated chemiluminescence (ECL) with tris(4,7-diphenyl-1,10-phenanthrolinedisulfonic acid)rathenium(II) (RuBPS) in solution and immobilized on an electrode surface is investigated. Flow injection analysis with a thin layer electrochemical cell modified for ECL detection is used to determine the analytical utility of solution phase RuBPS and RuBPS immobilized in a cationic polypyrrole derivative. The solution phase reaction of RuBPS with oxalate is investigated with regard to the dependence of ECL emission on RuBPS concentration, carrier stream flow rate, and pH. In the parameter range studied, ECL intensity is not linear with the concentration of RuBPS in the sample. A maximum ECL intensity is observed with a RuBPS concentration of approximately 250 M. Slower linear velocities give greater ECL intensities which is the opposite of what is observed for Ru(bpy) ₃ ³⁺ and oxalate. Greater ECL intensity is observed at lower pHs for oxalate and at higher pHs for proline. RuBPS ECL with oxalate yields a working curve with a linear range from 0.1–100 M oxalate. Solution phase ECL is observed for RuBPS and other amines such as NADH, proline, tripropylamine, and antibiotics including streptomycin and gentamicin. RuBPS is also immobilized by electrochemical polymerization of 1-methyl-3-(pyrrol-1-ylmethyl)pyridinium chloride (MPP) in the presence of RuBPS. This polymer-modified electrode yields ECL for oxalate and for amines.Deceased     

Flow Injection Chemiluminescence Determination of Gentamycin Using On-Line Electrogenerated Co(III) As the Oxidant

ABSTRACT

A novel flow-injection Chemiluminescence (CL) system for the determination of gentamycin is described, based on the direct chemiluminescence reaction of gentamycin and Co(III) in sulfuric acid media. The unstable strongly oxidative Co(III) was electrogenerated on-line with constant current electrolysis. The chemiluminescence intensity was linear with gentamycin concentrations of 0.01～80μg/ml, the detection limit being 0.005μg/ml. The whole process could be completed in 1 min with a relative standard deviation of less than 3.2%. The proposed method is rapid and simple and is suitable for automatic and continuous analysis. This method has been applied satisfactorily to the analysis of gentamycin in pharmaceutical preparations.     

基于电化学双共价键法构建可再生高灵敏的电化学发光适体传感器检测可卡因

基于点击化学和重氮盐法的双共价键固定化方法,制备了一种高灵敏、可重复使用的电化学发光(ECL)适体传感器. 该方法以可卡因为分析物,以可卡因适体为分子识别物质,以钌联吡啶衍生物为ECL信号物质. 采用电化学方法在玻碳电极表面重氮化叠氮苯胺,通过点击反应连接炔基功能化的钌联吡啶衍生物标记可卡因适体,获得适体传感器. 该传感器在共反应剂存在下,产生弱的电化学发光信号,可卡因存在下,电化学发光信号增加. 基于此,建立了“信号增强”型检测可卡因的电化学发光分析新方法. 电化学发光信号与可卡因浓度在0.1 nmol·L^-1 ~ 100 nmol·L^-1范围内呈良好的线性关系,检出限为60 pmol·L^-1. 该传感器具有良好的稳定性,可重复多次使用. 该双共价键法在构建ECL传感器方面具有很好的应用前景.     

Cu2+-H2O2-罗丹明B-西咪替丁化学发光体系的研究

在弱碱性的多聚磷酸钠介质中,二价铜离子、过氧化氢和染料罗丹明B混合可以产生较强的化学发光,西咪替丁对此发光有较强的抑制作用,其抑制发光强度与西咪替丁P43的质量浓度在5.0-1000μg.L-1范围内呈良好的线性关系,基于此,结合流动注射技术,建立了一种直接测定西咪替丁的化学发展发光新方法。该方法具有较高的灵敏度,检出限为2.2μg.L-1(IUPAC),对500μg.L-1西咪替丁平行测定11次,其相对标准偏差为2.1%。该方法已成功用于西咪替丁胶囊和针剂含量的测定。     

基于一次性薄层色谱电极高选择电化学发光分析法测定Ni(II)的研究

基于一种新的电极制作方法, 研制了具有薄层色谱分离功能的一次性薄层色谱电极. 结合该电极的分离、保留分析物于电极表面一定空间区域的色谱分离能力与电极表面电化学发光信号的空间分辨能力, 实现了分析物的高效分离与原位高灵敏度电化学发光(ECL)检测, 建立了电化学发光分析方法与薄层色谱分离方法联用的新技术. 并以Ni^2＋离子为代表探讨了这一方法的可行性和分析特性. 在最佳的实验条件下, 该方法测定Ni^2＋离子的线性范围为5.0× 10^－9～5.0×10^－6 g/mL, 检出限为1.5×10^－9 g/mL, 相对标准偏差为2.8% (c＝1.0×10^－6 g/mL, n＝11).