孔雀石绿单克隆抗体制备和酶联免疫检测方法的建立

针对孔雀石绿三苯环特征结构,设计合成1种高质量半抗原。通过偶联载体蛋白、动物免疫和细胞融合,制备出一株高质量的单克隆抗体MG-DA4-C7,亚类为IgG1,轻链为κ型。通过对包被原浓度、抗体浓度、二抗浓度的优化,建立了孔雀石绿间接竞争酶联免疫分析方法。方法半抑制浓度( IC50)为0.96μg/L,线性检测范围(IC20~C80)为0.1~8.1μg/L,LOD(IC10)为0.05μg/L,回归方程y=-0.3274lgx+0.4698(R2=0.9891)。本方法特异性高,与代谢物隐孔雀石绿交叉反应小于0.1％,与结晶紫、灿烂绿交叉反应率分别为18.1％和26.5％;实际样品添加回收率为87.3％~107.3％。本方法测定结果经HPLC-MS/MS方法确证,二者相关系数达0.999。本方法可用于鱼类等水产品中孔雀石绿残留的实际检测。     

滴滴涕单克隆抗体的制备及其评价

以滴滴涕(DDT)的特征部分为基础设计并合成了半抗原4-{4-[2,2,2-三氯-1-(4-氯-苯基)-乙基]-苯基}-丁酸(DDT-H1)、4-[4-(2,2,2-三氯-1-对甲苯基-乙基)-苯基]-丁酸(DDT-H2),并采用活泼酯法制备免疫原DDT-H1-BSA,以及混合酸酐法制备包被原DDT-H1-OVA、DDT-H2-OVA;用DDT-H1-BSA对小鼠进行免疫,通过细胞融合、筛选、克隆等步骤得到1株能稳定分泌DDT农药抗体的单克隆细胞株。细胞株经扩大培养后,注射小鼠体内产生腹水,并将其用辛酸-硫酸铵和protein A柱子纯化出单克隆抗体。其分泌的单克隆抗体免疫球蛋白亚类为Ig G1,单抗腹水的效价为1.68×105,亲和力Ka为5.238×1011L·mol-1,与其它几种代谢物有一定的交叉反应。在此基础上,利用获得的单抗研究建立DDT的间接竞争酶联免疫吸附检测法(ic ELISA)。结果表明,所建立的间接竞争ELISA方法的线性范围(IC20~IC80)为6.6~521.8 ng/m L,可用于检测农副产品、环境中残留的DDT及其代谢物。     

吡虫啉单克隆抗体的制备及其间接竞争化学发光酶联免疫分析方法的建立

以吡虫啉原药和3-巯基丙酸为原料,合成了吡虫啉半抗原,通过活泼酯法将其与载体蛋白钥孔血蓝蛋白（KLH）、牛血清白蛋白（BSA）偶联制备得到完全抗原,经免疫Balb/c雌性小鼠并与骨髓瘤细胞融合获得吡虫啉单克隆抗体,建立了用于吡虫啉检测的间接竞争化学发光酶联免疫分析方法（ic-CLEIA）。优化了方法的包被原稀释倍数、抗体稀释倍数、缓冲液种类、缓冲液的pH值、一抗竞争反应时间、酶标二抗稀释倍数等条件,最适条件为：包被原质量浓度62.50 ng/mL（稀释16 000倍）,抗体质量浓度103.12 ng/mL（稀释64 000倍）,缓冲液PBS（pH 7.4）,抗原与抗体竞争反应时间30 min,酶标二抗稀释倍数1∶7 000。结果表明,在最适条件下该方法的检出限（IC10）为0.03 ng/mL,IC50为0.57 ng/mL,线性检测范围（IC20 ~ IC80）为0.083 ~ 3.99 ng/mL。与氯噻啉的交叉反应率为2.2%,与噻虫胺、呋虫胺、啶虫脒、噻虫啉、噻虫嗪5种吡虫啉结构类似物无明显交叉反应。对黄瓜和苹果样品的加标回收率为82.0% ~ 112%,相对标准偏差小于15%。实际样品检测结果与HPLC仪器方法相关性良好（r2 = 0.989）。结果表明,所建立的ic-CLEIA方法具有特异性强、灵敏度高的特点,可用于食品中吡虫啉残留的快速检测。     

对硫磷化学发光酶联免疫吸附分析方法的建立和评价

建立了基于多克隆抗体的对硫磷间接竞争化学发光酶联免疫吸附分析方法(icCLEIA)。以三氯硫磷为原料,经三步取代反应合成对硫磷半抗原,通过活泼酯法将半抗原分别与牛血清蛋白(BSA)和卵清蛋白(OVA)偶联,制备免疫抗原和包被抗原。经免疫新西兰大白兔,获得对硫磷抗血清。通过优化条件参数,建立了对硫磷的icCLEIA分析方法。本方法的检测线性范围为0.24～15.83!g/L;半抑制浓度IC50为1.14!g/L;检出限为0.09!g/L;对蔬菜样品和水样品的平均添加回收率为74.6%～121.0%。本方法可用于实际样品中痕量对硫磷残留检测。     

噻虫嗪单克隆抗体制备及酶联免疫吸附分析方法的建立

通过化学修饰合成了噻虫嗪人工半抗原,采用碳二亚胺法将该半抗原与牛血清蛋白(BSA)和卵清蛋白(OVA)偶联,成功制备了分子结合比合理的免疫原和包被原。经过免疫原免疫6周龄Balb/c小鼠、PEG介导免疫鼠脾细胞和骨髓瘤细胞的融合和阳性杂交瘤细胞的筛选和克隆化,获得了效价高达1∶6.4×105的抗噻虫嗪单克隆抗体,抗体亚类为IgG1型。优化了ELISA实验条件,建立了基于单克隆抗体技术的噻虫嗪残留间接竞争ELISA方法。本方法的抑制中浓度(IC50)为0.0255mg/L,检测灵敏度(IC20)为0.0022mg/L,检出限(IC10)为0.001mg/L。除噻虫胺外,该抗体与其它噻虫嗪结构类似物无交叉反应。以自来水为基质的噻虫嗪添加回收实验显示,0.01,0.5和10.0mg/L添加水平的回收率均大于75%,且各添加水平重复测定8次的相对标准偏差均小于8%,说明所建立的间接竞争ELISA准确度高,重复性好,适合水中噻虫嗪残留的检测。     

氟甲喹单克隆抗体制备、鉴定及间接竞争酶联免疫吸附分析法

以氟甲喹(FLU)为原料,合成4个碳原子手臂的半抗原(FLUABA),采用活泼酯法与牛血清白蛋白(BSA)偶联制备免疫抗原,通过免疫Balb/c小鼠及细胞融合,获得1株稳定分泌抗氟甲喹单克隆抗体的杂交瘤细胞株DB6-E7,其抗体亚类为IgG1,亲和力常数(KA)为8.19×108L/mol。将氟甲喹、FLUABA及6个碳原子手臂的半抗原FLUACA分别与卵清白蛋白(OVA)偶联作为包被抗原,研究异源包被对间接竞争ELISA灵敏度的影响。结果表明,异源包被可显著提高ELISA方法的灵敏度。基于最佳异源包被(FLU-OVA)的酶联免疫吸附分析法的IC50为26.33μg/L,检出限为4μg/L,定量检测范围为8.0～114μg/L(IC20～IC80)。与喹诺酮类药物及结构类似物几乎不存在交叉反应,特异性高。此方法可满足畜禽产品中氟甲喹残留的快速筛查。     

人工雌激素己烯雌酚酶联免疫分析方法的建立

本实验旨在初步建立人工合成雌激素己烯雌酚（DES）的酶联免疫吸附分析（icELISA）方法。实验首先合成了己烯雌酚的两种半抗原正丁酸己烯雌酚单醚（DES-CP）、乙酸己烯雌酚单醚（DES-CME）。DES-CP与牛血清蛋白（BSA）偶联作为免疫原免疫BALB/c雌性小鼠并进一步制备了DES单克隆抗体，表征了单克隆抗体的亲和力和特异性。在ELISA优化的条件下，方法的抑制中浓度为 IC₅₀＝9.8 ng/mL，检测限 IC₂₀＝2.3 ng/mL，工作浓度范围为 2-42 ng/mL. 抗体与己烷雌酚、双烯雌酚的交叉反应分别为 44%, 27%，与天然雌激素雌二醇的交叉反应小于0.1%. 评估了分析缓冲液中盐离子浓度、pH、有机溶剂含量等因素对分析方法的影响。本分析方法应用于水样的添加实验，回收率符合分析精度要求。HPLC法对实验结果进行了确证，证明了ELISA应用于水样分析的可靠性。     

稻瘟灵单克隆抗体的制备及评价

该文制备了农药稻瘟灵的单克隆抗体,并建立了稻瘟灵的酶联免疫吸附（ELISA）检测方法。在完全保留稻瘟灵结构的基础上从二硫杂环戊烷结构中衍生不同长度的活性手臂制备了2个半抗原,并分别与载体蛋白偶联合成免疫原与包被原。通过小鼠免疫、细胞融合、淘筛、腹水制备等步骤获得特异性识别稻瘟灵的单克隆抗体mAb-DWL。结果显示,基于mAb-DWL构建的间接竞争ELISA法的半抑制浓度（IC50）为55.2 ng/mL,线性范围为4.6～530.2 ng/mL,其与结构类似物的交叉反应可忽略不计。所建立的ELISA方法对蔬菜及粮食等样品的加标回收率为77.2%～116%,可用于实际样品的快速检测。     

氯黄隆酶联免疫吸附分析技术研究

对邻氯苯磺酰胺进行衍生合成半抗原,并与载体蛋白质共价偶联制备突出氯黄隆分子特异性部分的合成抗原,以合成抗原免疫兔获得对氯黄隆具高亲合力的抗血清。采用硫酸铵盐析和ＤＥＡＥ纤维素反相吸附法分离纯化抗体,用辣根过氧化物酶以改良的过碘酶钠法标记 混合酸酐法标记半抗原。在此基础上建立了对氯黄隆具高度特异性的同接竞争,包被抗体,包被抗原直接竞争酶联免疫吸附分析技术。在优化条件下,氯黄隆测定的线性浓度范围为１０＾０－１０＾３ｎｇ／ｍＬ,检出限〈０．１ｎｇ／ｍＬ。邻氯苯磺酰胺及与氯黄隆结构类似的常用磺酰脲类除草剂不干扰氯黄隆的分析。     

食品中三唑酮的酶联免疫吸附分析

制备人血清白蛋白和三唑酮的结合物作为免疫原,免疫兔子获得了抗三唑酮的抗体,并建立了三唑酮的酶联免疫吸附分析法。此方法被成功的应用于黄瓜、梨等食品中三唑酮的分析,最低检出限为40ng/g样品,回收率为92.44％～98.18％。并与气相色谱分析结果有很好的一致性。     

Indirect Competitive Aptamer-Based Enzyme-Linked Immunosorbent Assay (apt-ELISA) for the Specific and Sensitive Detection of Isocarbophos Residues

Environmental contamination from pesticide residues is a worldwide public health concern and has attracted increasing attention from researchers over the past several years. In this study, an aptamer-based enzyme-linked immunosorbent assay (apt-ELISA) using enzyme signal amplification has been developed to determine isocarbophos residues. The limit of detection for the apt-ELISA was 0.05?ng/mL for isocarbophos, and the sensitivity was better than that obtained using the traditional ELISA approach. The average recovery of the apt-ELISA ranged from 84 to 97%, and the coefficient of variation ranged from 4.6 to 12.1% when determining the isocarbophos residues in various water samples. The results demonstrate that the proposed approach can be used for routine screening of isocarbophos residues.     

Development of Monoclonal Antibody-based Enzyme-linked Immunosorbent Assay to the Estrogen Diethylstilbestrol

Diethylstilbestrol （DES） is a synthetic estrogen that has ever been used worldwide. Polyclonal antibodies （PAbs） were used in immunoassay for detection of DES residues in environmental and agricultural samples in previous paper. In this paper, an indirect competitive enzyme-linked immunosorbent assay （icELISA） was developed based on monoclonal antibody （MAb） for the determination of diethylstilbestrol. Mono-o-carboxypropyldiethylstilbestrol （DES-CP） and mono-o-carboxymethyldiethylstilbestrol （DES-CME） were synthesized to be haptens. DES-CP was coupled to bovine serum albumin （BSA） to be an immunogen in BALB/c female mouse for MAb production. The MAb was characterized for specificity and affinity to DES in icELISA. Under the optimum condition, the icELISA showed an ICs0 of 9.8 ng/mL, the limit of detection （IC20） of 2.3 ng/mL and a working range of 2-42 ng/mL. Hexestrol and dienestrol exhibited cross-reactivity values were 44% and 27%, respectively. Cross-reactivity of natural estrogen 17β-estradiol was less than 0.1%. The influences of some factors such as salt concentration, pH and organic solvent concentration on the assay were evaluated. The concentrations of DES in the fortified water samples determined by the assay were correlated well with the fortification levels. The results were conf＇m＇ned with analysis by HPLC.     

A Monoclonal Antibody-Based Indirect Competitive Enzyme-Linked Immunosorbent Assay for the Determination of Olaquindox in Animal Feed

A reliable indirect competitive enzyme-linked immunosorbent assay (ELISA) based on a new specific monoclonal antibody was developed to determine olaquindox in animal feed. The influence of several physicochemical factors (nonfat dried milk solution, organic solvent, incubation time) on the immunoassay was investigated. In the optimized system, the 50% inhibition concentration was 9.66 ± 1.81 µ g L^?1. The limits of detection for porcine, chicken, and fish feed were 0.28, 0.46, and 0.48 µg kg^?1. The limits of quantification were 1.00 µg kg^?1 for the feed samples. The recoveries from porcine, chicken, and fish feed spiked with olaquindox were 90–104%, 77–103%, and 78–107%, respectively, with coefficients of variation (CVs) between 3.8 and 14.1%. The cross-reactivity was less than 2.08% with four structurally related compounds and no recognition of five other restricted or forbidden drugs was observed. Parallel analysis of the three spiked feed samples showed comparable results between the indirect competitive ELISA and the standard high-performance liquid chromatography method in China (R² = 0.9985 for porcine feed, R² = 0.9896 for chicken feed, and R² = 0.9987 for fish feed). These data suggest that the developed indirect competitive ELISA is a specific and convenient method and is suitable for olaquindox determination in animal feed.     

Preparation of Anti-Glycyrrhetinic Acid Monoclonal Antibody for Application in an Indirect Competitive Enzyme-Linked Immunosorbent Assay

Glycyrrhetinic acid is a major metabolite of glycyrrhizin, which is one of the main components of licorice roots and is considered to be one of the pharmacologically active substances in licorice. A new hybridoma cell line, named G-2A6, was generated by fusing mouse myeloma cells and splenocytes, which were immunized using glycyrrhetinic-acid–keyhole limpet hemocyanin to produce a monoclonal antibody (mAb) against glycyrrhetinic acid. Using the anti-glycyrrhetinic acid mAb, we attempted to develop a simple, rapid, and highly sensitive indirect competitive enzyme-linked immunosorbent assay (icELISA). The developed icELISA had a range from 3.91 to 125?ng/mL with low coefficients of variation (less than 5%) and demonstrated a high recovery rate of glycyrrhetinic acid spiked into licorice powder (average?=?101.76%). In addition, the icELISA could determine the glycyrrhetinic acid concentration in glycyrrhetinic-acid-spiked human serum with simple pretreatment, which suggests that the developed ELISA system using anti-glycyrrhetinic acid mAb would prove to be an effective and useful tool for determining glycyrrhetinic acid in various fields such as the analysis of Glycyrrhiza plants and pharmacokinetic studies of glycyrrhetinic acid during the administration of glycyrrhetinic acid, glycyrrhizin, and/or licorice-based medical agents.     

生物素-亲和素放大酶联免疫吸附法测定氯胺酮

建立了检测氯胺酮的生物素-亲和素放大酶联免疫吸附测定法(BA-ELISA)。实验最佳测定条件:抗原包被浓度为2.0mg/L、氯胺酮单克隆抗体浓度为10.2mg/L,生物素化羊抗小鼠IgG(Biotin-IgG)和酶标链霉亲和素(SA-HRP)的最佳反应浓度分别为0.29和1.0mg/L。在此优化条件下,方法的线性范围为0.1～1000μg/L;检出限为0.03μg/L。氯胺酮生物样品的加标回收率为94%～102%。与酶标二抗体系ELISA法相比,BA-ELISA具有更高的灵敏度,适于低浓度氯胺酮的检测。     

基于高特异性单克隆抗体的间接竞争ELISA检测食品中胭脂红的研究

该研究设计合成了一种胭脂红半抗原,分别采用重氮化法和戊二醛法将半抗原与载体蛋白偶联制备人工抗原,通过免疫Bal b/c小鼠及杂交瘤技术成功筛选制备了胭脂红高特异性单克隆抗体,与苋菜红、柠檬黄等结构类似物无交叉反应.基于该抗体建立了间接竞争酶联免疫分析方法用于检测食品中胭脂红残留.该方法对胭脂红的半抑制浓度(IC50)和...     

直接竞争酶联免疫吸附分析法测定氰戊菊酯

采用活性酯法,将氰戊菊酯半抗原N-[2-(4-氯苯基)-3-甲基丁酰基]-4-氨基丁酸与载体蛋白共价偶联合成突出氰戊菊酯分子结构特征的人工抗原和包被原.以人工抗原免疫新西兰白兔制备抗血清,采用(NH4)2SO4分步盐析和DEAE纤维素柱层析法从抗血清中分离纯化对氰戊菊酯具特异性亲和力的抗体,采用活性酯法,以辣根过氧化物酶标记半抗原N-[2-(4-氯苯基)-3-甲基丁酰基]-6-氨基己酸.采用固定抗体、氰戊菊酯和酶标半抗原直接竞争结合固相抗体的模式, 建立对氰戊菊酯具高特异性的酶联免疫吸附分析方法.在优化条件下, 测定氰戊菊酯标样检测的线性浓度范围为0.001～10.0 mg/L; 检出限0.001 mg/L; 相对标准偏差(RSD, n=5)为9.19%.小白菜中分别添加0.10和5.0 mg/kg氰戊菊酯,直接竞争酶联免疫吸附分析法(ELISA)测定,重复6次,回收率分别为83.8%～109%和93.6%～110%; RSD分别为11.7%和7.25%.对实际样品的有效检出限为0.007 mg/L.其它常用拟除虫菊酯类杀虫剂(氯氰菊酯、溴氰菊脂、功夫菊酯、醚菊酯、联苯菊酯)不干扰氰戊菊酯的测定.     

联苯菊酯酶联免疫吸附分析方法研究

建立了定量测定联苯菊酯的间接竞争酶联免疫吸附分析方法(ic-ELISA)。利用联苯菊酯的代谢物联苯醇合成了联苯菊酯的半抗原LBc(2-甲基-3-苯基苄基氧基羰基丙酸)和LBy(2-甲基-3-苯基苯甲酸)。通过碳二亚胺法将LBc交联于牛血清蛋白(BSA)作为免疫抗原(LBc-BSA),通过活泼酯法将LBc和LBy分别交联于卵清蛋白(OVA)作为包被抗原(LBc-OVA和LBy-OVA),LBc-BSA为免疫原制备了联苯菊酯的兔抗血清,间接非竞争酶联免疫吸附分析方法测得其效价达5.12×104。通过同源异源分析,发现异源分析的灵敏度较高,对pH值、离子强度、甲醇含量等影响因素进行了研究,0.3mol/L钠离子强度的磷酸缓冲液(pH7.5)和30%的甲醇确定为联苯菊酯间接竞争酶联免疫吸附分析方法的最佳工作条件,该方法的IC50为2.16±0.32mg/L,检出限(LDL)为0.016±0.002mg/L。对大部分拟除虫菊酯,如三氟氯氰菊酯、溴氰菊酯、氯氰菊酯、氰戊菊酯、甲氰菊酯和拟除虫菊酯的代谢物3-苯氧基苯甲酸没有明显的交叉反应。     

酶联免疫吸附分析法测定水样中的阿特拉津

应用阿特拉津半抗原衍生物共价交联于载体蛋白分子上，制成免疫抗原，经免疫得到高质量的兔抗阿特拉津抗血清。经条件优选，建立了测定阿特拉津的酶联吸附分析竞争法，测定性范围为０．０５－５．００μｇ／Ｌ，最低检出限仅为０．０１８－０．０２２μｇ／Ｌ，且精密度高，特异性强。