Synthesis of three haptens for the class-specific immunoassay of O,O-dimethyl organophosphorus pesticides and effect of hapten heterology on immunoassay sensitivity

A general and broad class-specific enzyme-linked immunosorbent assay was developed for the O,O-dimethyl organophosphorus pesticides, including malathion, dimethoate, phenthoate, phosmet, methidathion, fenitrothion, methyl parathion and fenthion. Three haptens with different spacer-arms were synthesized. The haptens were conjugated to bovine serum albumin (BSA) for immunogens and to ovalbumin (OVA) for coating antigens. Rabbits were immunized with the immunogens and six polyclonal antisera were produced and screened against each of the coating antigens using competitive indirect enzyme-linked immunosorbent assay for selecting the proper antiserum. The effect of hapten heterology on immunoassay sensitivity was also studied. The antibody-antigen combination with the most selectivity for malathion was further optimized and tested for tolerance to co-solvent, pH and ionic strength changes. The IC₅₀ values, under optimum conditions, were estimated to be 30.1 μg L⁻¹for malathion, 28.9 μg L⁻¹ for dimethoate, 88.3 μg L⁻¹ for phenthoate, 159.7 μg L⁻¹ for phosmet, 191.7 μg L⁻¹ for methidathion, 324.0 μg L⁻¹ for fenitrothion, 483.9 μg L⁻¹ for methyl parathion, and 788.9 μg L⁻¹ for fenthion. Recoveries of malathion, dimethoate, phenthoate, phosmet and methidathion from fortified Chinese cabbage samples ranged between 77.1% and 104.7%. This assay can be used in monitoring studies for the multi-residue determination of O,O-dimethyl organophosphorus pesticides.     

Synthesis of haptens of organophosphorus pesticides and development of enzyme-linked immunosorbent assays for parathion-methyl

A simple synthetic method for haptens of organophosphorus (OP) pesticides with a spacer arm (aminocarboxylic acid) attached at the pesticide thiophosphate group was developed. While the previous synthetic approach for this type of haptens requires seven steps, the present method involves only two steps. Using this method, four haptens of the OP insecticide parathion-methyl were synthesized. Rabbits were immunized with either one of the two haptens coupled to bovine serum albumin for production of polyclonal antibodies. Using the serum with the highest specificity, an antigen-coated ELISA was developed, which showed an IC₅₀ of 6.4 ng/ml with a detection limit of 0.2 ng/ml. An antibody-coated ELISA using an enzyme tracer was also developed, which showed an IC₅₀ of 3.5 ng/ml with a detection limit of 0.3 ng/ml. The antibodies showed negligible cross-reactivity with other OP pesticides tested except with the insecticides parathion and paraoxon only in the antigen-coated ELISA.     

Design and efficient synthesis of novel haptens and complete antigens for the AOZ, a toxic metabolite of furazolidone

A good strategy was brought forward for designing efficient haptens and complete antigens for 3-amino-2-oxazolidinone (AOZ). Haptens designed newly were achieved facilely in good yield by using LiCI-N(Et)_3 as new catalysis system,the structure of which was elucidated by spectroscopy analysis,such as NMR and MS.Novel antigens for AOZ were prepared successfully by convenient active ester method.The ratios of haptens 3 and 4 to carrier proteins were proven respectively as 41:1(5a),39:1(6a),11:1(5b) and 9:1(6b) by trinitrobenzene sulfonic acid(TNBS) method.The results of indirect competitive ELISA (ic-ELISA) of antiserums indicated that the haptens with a short unsaturated side chain can evoke specific immune response effectively.     

Enzyme-linked immunosorbent assays for the insecticide fenitrothion. Influence of hapten conformation and sample matrix on assay performance

This study aimed at developing competitive enzyme-linked immunosorbent assays (ELISAs) for the organophosphorus (OP) insecticide fenitrothion using a monoclonal antibody. The hapten used to obtain the antibody had an ideal structural feature that allowed minimal functional group sacrifice. By using the antibody and a coating antigen, a competitive indirect ELISA was developed, which showed an IC₅₀ of 14 ng mL⁻¹ with a detection limit of 3.0 ng mL⁻¹. A competitive direct ELISA using an enzyme tracer was also developed, which showed an IC₅₀ of 17 ng mL⁻¹ with a detection limit of 1.6 ng mL⁻¹. The antibodies in both assays showed negligible cross-reactivity with the metabolites of fenitrothion and other OP pesticides except with the insecticides parathion-methyl and parathion-ethyl. Recoveries of fenitrothion from fortified rice and lettuce samples were determined and the bias in the recovery values was rationalized by using the standard curves obtained in the matrix extract.     

固相微萃取-气相色谱-质谱联用分析环境水样中痕量有机磷农药

研究了固相微萃取(SPME) 气相色谱 质谱联用(GC MS)同时测定环境水样中二嗪农、甲基对硫磷、对硫磷和水胺硫磷4种有机磷农药(OPPs)的分析方法。选择聚丙烯酸酯(PA)萃取纤维,对SPME的条件如萃取时间、萃取溶液的pH值和离子强度、解吸温度、解吸时间和GC MS的条件进行了优化。对二嗪农和水胺硫磷方法线性范围为0.001～10μg L,对甲基对硫磷和对硫磷方法线性范围为0.001～100μg L。二嗪农、甲基对硫磷、对硫磷、水胺硫磷的检出限分别为0.015,0.020,0.013和0.039μg L。分析加标自来水、矿泉水和湖水样品,回收率在89.0%～102%之间,RSD在2.1%～14.1%之间。适合于环境水样中痕量OPPs的快速分析。     

植物酯酶法检测有机磷农药残留量研究

对植物酯酶作为抑制剂检测有机磷农药的体系进行了研究,采用均匀设计法优化了检测条件;对可能影响酶活的干扰因素进行了分析;比较了7种有机磷农药对酶的抑制作用;建立了利用植物酯酶检测有机磷农药的方法,并应用于蔬菜样品中有机磷残留量检测。     

Ultrasonic assisted headspace single drop micro-extraction and gas chromatography with nitrogen-phosphorus detector for determination of organophosphorus pesticides in soil

This work describes optimization of headspace single drop micro-extraction for extraction of five organophosphorus pesticides; thionazin, sulfotep, dimethoate, disulfoton and parathion in soil. Ultrasound has also been used successfully to improve and accelerate the extraction of the analytes from the sample. The optimized extraction performance was obtained when the experimental parameters were set as follows; 3.0 μL of octanol as extraction solvent, high ionic strength (20% sodium chloride), 1:1 (w/v) sample dilution with water, extraction temperature at 60 °C for 30 min; applying ultrasound and without any pH adjustment. The optimized method was linear over the calibration range (5–200 and 10–300 for different analytes) with limits of detection of 0.1–2.0 ng g⁻¹. The enrichment factor for OPPs was 1.4–12.7 and the method was also reproducible with the relative standard deviations (RSD%) of 2.1–6.9%.     

Design of fluorescent self-assembled multilayers and interfacial sensing for organophosphorus pesticides

This paper details the fabrication of indole (ID) self-assembled multilayers (SAMs) and fluorescence interfacial sensing for organophosphorus (OP) pesticides. Quartz/APES/AuNP/l-Cys/ID film was constructed on l-cysteine modified Quartz/APES/AuNP surface via electrostatic attraction between ID and l-cysteine. Cyclic voltammetry indicates that ID is immobilized successfully on the gold surface. Fluorescence of the Quartz/APES/AuNP/l-Cys/ID film shows sensitive response toward OPs. The fluorescent sensing conditions of the SAMs are optimized that allow linear fluorescence response for methylparathion and monocrotophos over 5.97 × 10⁻⁷ to 3.51 × 10⁻⁶ g L⁻¹ and 3.98 × 10⁻⁶ to 3.47 × 10⁻⁵ g L⁻¹, with detection limit of 6.1 × 10⁻⁸ gL⁻¹ and 3.28 × 10⁻⁶ gL⁻¹, respectively. Compared to bulk phase detection, interfacial fluorescence sensing based on the SAMs technology shows higher sensitivity by at least 2 order of magnitude.     

A gold-based nanobeacon probe for fluorescence sensing of organophosphorus pesticides

A nanomaterials-based novel molecular beacon has attracted growing attentions in fluorescent assays as many nanomaterials possess excellent quenching efficiency. In this work, a gold-based nanobeacon probe was established to detect organophosphorus pesticides for the first time. The constructed gold-based nanobeacon acted as a signal indicator and could display the decreasing of the intensity in the presence of targets, which competitively bound to single strand DNA. To achieve a high sensitive probe, some parameters including solution pH, temperature and reaction time were investigated and optimized. The gold-based nanobeacon probe assay was proved to be rapid and sensitive to achieve a detection limit of 0.035 μM for isocarbophos, 0.134 μM for profenofos, 0.384 μM for phorate and 2.35 μM for omethoate, respectively. The prepared nanobeacon effectively reduced the background and improved the detection sensitivity and selectivity. The probe is stable, easy to operate and does not need sophisticated instruments. These features makes the probe feasible for screening trace organophosphorus pesticides in real samples.     

Separation of organophosphorus pesticides by using nano-liquid chromatography

In the present research, the separation of a series of organophosphorus pesticides (fensulfothion, fenamiphos, profenofos, fonofos, isofenphos, dialifos, sulprofos and prothiofos), by using nano-liquid chromatography (nano-LC) with UV detection is described. Three 100 μm ID capillary columns, packed with different silica-based stationary phases (CN, C₁₈, and phenyl), were investigated. Among these, the phenyl column offered the best results in terms of chromatographic performance, and was selected for pesticide analyses. Parameters, such as sample dilution solvent, injection volume, mobile phase composition and flow rate, were optimized in order to define the ideal experimental conditions. With the aim of improving sensitivity, on-column focusing of large injection volumes was applied: a sensitivity increase of circa 100-fold was attained, with limits of detection (LODs) and quantification (LOQs) within the 4.4–37.5 and 14.5–125.0 ng/mL ranges, respectively. The method was validated, with satisfactory results, through the measurement of the following parameters: limits of detection and quantification, precision, linearity and recovery. Finally, five different baby foods, previously fortified with a solution of the eight aforementioned pesticides, and then subjected to liquid–liquid extraction and solid-phase extraction clean-up, were analyzed.     

Alumina sol-gel/sonogel-carbon electrode based on acetylcholinesterase for detection of organophosphorus pesticides

Two new amperometric biosensors based on immobilization of acetylcholinesterase on a sonogel-carbon electrode for detection of organophosphorous compounds are proposed. The electrodes were prepared applying high-energy ultrasounds directly to the precursors. The first biosensor was obtained by simple entrapping acetylcholinesterase in Al₂O₃ sol-gel matrix on the sonogel-carbon. The second biosensor was produced in a sandwich configuration. Its preparation involved adsorption of the enzyme and modification via a polymeric membrane such as polyethylene glycol and the ion-exchanger Nafion. The optimal enzyme loading was found to be 0.7 mIU. Both biosensors showed optimal activity in 0.2 M phosphate buffer, pH 7.0, at an operating potential of 210 mV. The detection limit achieved for chlorpyriphos-ethyl-oxon was 2.5 × 10⁻¹⁰ M at a 10-min incubation time.     

Production and characterization of monoclonal antibody for class-specific determination of O,O-dimethyl organophosphorus pesticides and effect of heterologous coating antigens on immunoassay sensitivity

A generic hapten (H1), 3-(4-Dimethoxyphosphorothioyloxy phenyl)propanoic acid, was synthesized to produce monoclonal antibodies (mAbs) for the determination of organophosphorus pesticides (OPs) in a class-specific manner. Six heterologous haptens were designed to study the effect of hapten heterology on immunoassay sensitivity. Several mice were immunized with this H1-BSA immunogen. Spleen cells of two immunized mice were fused with myeloma cells, and the resulting hybridomas were screened using H1-OVA. In a competitive indirect enzyme-linked immunosorbent assay (ELISA) format, three hybridoma cell lines (B4-C6, D12-B5, E5-H2) that produced mAbs with high selectivity and broad specificity were selected and expanded. The monoclonal antibody D12-B5 with higher titer was chosen for further study. In heterologous assay, the combination of D12-B5 and coating antigen H7-OVA constituted a particularly sensitive assay for competitive indirect ELISA and showed broad specificity for the determination of OPs, including parathion-methyl, chlorpyrifos-methyl, tolclofos-methyl, fenthion, malathion, fenitrothion. This combination resulted in the IC₅₀ of 0.58-10.47 µg/ml.     

毛细管电泳在有机磷类除草剂检测中的应用进展

近年来,随着抗草甘膦转基因作物的发展,草甘膦用量逐年增大,大量草甘膦制剂的介入严重影响了土壤、水质及生态环境,危害人类身体健康。如何快速准确检测环境样品中的残留有机磷类除草剂已成为人们关注的焦点问题之一。本文从衍生方法、检测器、离线及在线富集技术等几个方面出发,总结了目前毛细管电泳在检测有机磷类除草剂方面的研究工作,并展望了未来的主要发展方向。     

Monoclonal antibody-based enzyme-linked immunosorbent assays for the detection of the organophosphorus insecticide diazinon

Four haptens of the organophosphorus (OP) insecticide diazinon were synthesized to develop enzyme-linked immunosorbent assays (ELISAs) for this pesticide. One of them was conjugated to KLH to be used as the immunogen for production of monoclonal antibodies. By using the antibodies and a coating antigen, an indirect competitive ELISA was developed, which showed an IC₅₀ of 4.0 ng/mL with a detection limit of 0.7 ng/mL. A direct competitive ELISA using an enzyme tracer was also developed, which showed an IC₅₀ of 6.0 ng/mL with a detection limit of 0.9 ng/mL. The antibodies in both assays showed negligible cross-reactivity with metabolites of diazinon and other OP pesticides. Recovery of diazinon from fortified lettuce and rice samples was satisfactory except at the fortified concentration of 100 ppb.     

Prediction of acute toxicity of organophosphorus pesticides using topological indices

Topological indices were used in the prediction of the acute toxicity (intraperitoneal and oral LD₅₀) of organophosphorus pesticides on rats. Models with six variables for the prediction of LD₅₀-i.p. (r?=?0.849, Q ²?=?0.613) and eight variables for LD₅₀-oral (r?=?0.906, Q ²?=?0.701) were selected. External group and cross-validation by use of leave-n-out tests were also performed in order to assess the stability and the prediction performance of the selected topological models.     

基于碳纳米管修饰电极检测有机磷农药的生物传感器

报道了一种用于检测有机磷农药的安培型生物传感器,利用戊二醛交联法将乙酰胆碱酯酶和牛血清白蛋白固定在羧基化多壁碳纳米管修饰玻碳电极表面,制备了可应用于检测有机磷农药的新型生物传感器,并确定了最佳工作条件.该方法具有良好的重现性和回收率,当辛硫磷及氧化乐果的浓度分别在5.0×10-4～5.0×10-1 g/L和1.0×10-3～5.0×10-1 g/L范围内时,抑制率与其浓度的对数呈线性关系,检出限按抑制率为10%时的农药浓度计算,可分别达到3.6×10-4 g/L和5.9×10-4 g/L.     

Innovative approach for the electrochemical detection of non-electroactive organophosphorus pesticides using oxime as electroactive probe

An innovative approach for sensitive and simple electrochemical detection of non-electroactive organophosphorus pesticides (OPs) was described in this report. The novel strategy emphasized the fabrication of an oxime-based sensor via attaching pralidoxime (PAM) on graphene quantum dots (GQDs) modified glassy carbon electrode. The introduction of GQDs significantly increased the effective electrode area, and then enlarged the immobilization quantity of PAM. Thus, the oxidation current of PAM was obviously increased. Relying on the nucleophilic substitution reaction between oxime and OPs, fenthion was detected using PAM as the electroactive probe. Under optimum conditions, the difference of oxidation current of PAM was proportional to fenthion concentration over the range from 1.0 × 10⁻¹¹ M to 5.0 × 10⁻⁷ M with a detection limit of 6.8 × 10⁻¹² M (S/N = 3). Moreover, the favorable detection performance in water and soil samples heralded the promising applications in on-site OPs detection.     

Use of SPME extraction to determine organophosphorus pesticides adsorption phenomena in water and soil matrices

Solid-phase micro extraction (SPME) coupled with GC enables rapid and simple analysis of organophosphorus pesticides in a range of complex matrices. Investigations were made into the extraction efficiencies from water of six organophosphorus insecticides (methamidophos, omethoate, dimethoate, parathion methyl, malathion, and parathion ethyl) showing a wide range of polarities. Three SPME fibres coated with different stationary phases, polydimethylsiloxane, polyacrylate, and carbowax-divinylbenzene (CW-DVB), were investigated. Water was spiked with the pesticides at concentrations from 1 to 0.01 µg mL-1, and the solutions used for optimization of the procedure. The CW-DVB fibre, with a 65 µm coating, gave the best performance. The optimized experimental conditions were sample volume 10 mL at 20°C, equilibration time 16 min, pH 5, and presence of 10% w/v NaCl. SPME analyses were performed on solutions obtained by equilibrating aqueous pesticide solutions with six certified soils with various physico-chemical characteristics. SPME data were also assessed by comparison with analyses performed by using conventional solid-phase extraction. Results indicate the suitability of SPME for analysis of pesticides in environmental water samples.