功能性纳米材料免疫层析技术在兽药残留检测中的应用
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摘要
兽药残留对人和环境都有潜在的威胁,成为近年来影响动物性食品质量与安全的主要因素之一。免疫层析技术具有检测快速、操作简便、价格低廉且环境友好等优点,适合应用于食品安全检测领域。针对兽药残留检测的免疫层析技术的研究现状及基于不同功能性纳米材料的免疫层析技术在兽药残留检测中的应用和发展前景进行综述,以期为新型免疫层析技术在兽药残留检测的应用及发展提供参考。
Veterinary drug residues show great potential threat to human and environment,and has become one of the main factors affecting the safety of animal-derived foods in recent years. Immunochromatography has the advantages of fast detection,simple operation,low cost and being friendly to environment,and is widely used in food safety detection. In this paper,the application of immunochromatograghy in detectiong veterinary drug residue were detailed summarized,and the development direction of immunochromatograghy technology based on different functional nanomaterials in veterinary drug residue detection were reviewed. This review will provide useful references for the future development and application of novel immunochromatograghy technology for veterinary drug residue detection.
Veterinary drug residues show great potential threat to human and environment,and has become one of the main factors affecting the safety of animal-derived foods in recent years. Immunochromatography has the advantages of fast detection,simple operation,low cost and being friendly to environment,and is widely used in food safety detection. In this paper,the application of immunochromatograghy in detectiong veterinary drug residue were detailed summarized,and the development direction of immunochromatograghy technology based on different functional nanomaterials in veterinary drug residue detection were reviewed. This review will provide useful references for the future development and application of novel immunochromatograghy technology for veterinary drug residue detection.
引文
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[13]李敬敏.兽药及非法添加物免疫层析检测试纸条的研制[D].天津:天津科技大学,2017:15-61
[14]彭鹏.硝基呋喃类兽药胶体金免疫层析检测方法研究[D].天津:天津科技大学,2016:13-61
[15]徐小婧.庆大霉素可视化免疫快速检测方法的研究[D].天津:天津科技大学,2012:12-47
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[19]WANG C,LI X,PENG T,et al.Latex bead and colloidal gold applied in a multiplex immunochromatographic assay for highthroughput detection of three classes of antibiotic residues in milk[J].Food Control,2017,77:1-7
[20]管笛,魏颖,王旗,等.乳胶免疫层析法定量检测猪尿液中的盐酸克伦特罗[J].食品科学,2017(12):273-277
[21]GUO X,KIM G.Ultrafine carbon black produced by pyrolysis of polyethylene using a novel DC-thermal plasma process[J].Journal of Physics and Chemistry of Solids,2008,69(5/6):1224-1227
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[23]徐浩,延卫,冯江涛.聚苯胺的合成与聚合机理研究进展[J].化工进展,2008(10):1561-1568
[24]LIU B,WANG L,TONG B,et al.Development and comparison of immunochromatographic strips with three nanomaterial labels:Colloidal gold,nanogold-polyaniline-nanogold microspheres(GPGs)and colloidal carbon for visual detection of salbutamol[J].Biosensors&Bioelectronics,2016,85:337-342
[25]王尚丽,赵伟,宋婧,等.基于聚对亚苯基亚乙烯类共轭高分子的单分散荧光微球的制备和表征[C].大连:高分子学术论文报告会,2011
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[27]张荣荣,徐自力.荧光微球的制备技术及其应用进展[J].高分子通报,2009(1):63-70
[28]朱海,范放,吕敬章,等.呋喃唑酮代谢物荧光纳米颗粒免疫层析法的建立[J].畜牧与饲料科学,2009(6):32-34
[29]宋春美.基于荧光纳米颗粒标记的盐酸克伦特罗荧光免疫层析试纸的研究[D].无锡:江南大学,2013:42-69
[30]BIAN S,CHU X,JIN Y,et al.A novel microsphere-based fluorescence immunochromatographic assay for monitoring cefalexin residues in plasma,milk,muscle and liver[J].Analytical Methods,2013,5(22):6441-6448
[31]CHEN R,LI H,ZHANG H,et al.Development of a lateral flow fluorescent microsphere immunoassay for the determination of sulfamethazine in milk[J].Analytical and Bioanalytical Chemistry,2013,405(21):6783-6789
[32]ZHOU J,ZHU K,XU F,et al.Development of a microsphere-based fluorescence immunochromatographic assay for monitoring lincomycin in milk,honey,beef,and swine urine[J].Journal of Agricultural and Food Chemistry,2014,62(49):12061-12066
[33]史聪颖,梁家杰,周克楠,等.基于FRET的新型莱克多巴胺荧光猝灭试纸条的研究[C].南宁:中国化学会全国有机分析与生物分析学术研讨会,2013
[34]FU Q,TANG Y,SHI C,et al.A novel fluorescence-quenching immunochromatographic sensor for detection of the heavy metal chromium[J].Biosensors&Bioelectronics,2013,49:399-402
[35]SHI C,DENG N,LIANG J,et al.A fluorescent polymer dots positive readout fluorescent quenching lateral flow sensor for ractopamine rapid detection[J].Analytica Chimica Acta,2015,854:202-208
[36]ZHANG Z,ZHANG M,WU X,et al.Upconversion fluorescence resonance energy transfer-a novel approach for sensitive detection of fluoroquinolones in water samples[J].Microchemical Journal,2016,124:181-187
[37]ALIVISATOS A.Semiconductor clusters,nanocrystals,and quantum dots[J].Science,1996,271(5251):933-937
[38]NIRMAL M,BRUS L.Luminescence photophysics in semiconductor nanocrystals[J].Accounts of Chemical Research,1999,32(5):407-414
[39]CHAN W,NIE S.Quantum dot bioconjugates for ultrasensitive nonisotopic detection[J].Science,1998,281(5385):2016-2018
[40]JAMIESON T,BAKHSHI R,PETROVA D,et al.Biological applications of quantum dots[J].Biomaterials,2007,28(31):4717-4732
[41]MEDINTZ I,UYEDA H,GOLDMAN E,et al.Quantum dot bioconjugates for imaging,labelling and sensing[J].Nature Materials,2005,4(6):435-446
[42]BERLINA A,TARANOVA N,ZHERDEV A,et al.Quantum dotbased lateral flow immunoassay for detection of chloramphenicol in milk[J].Analytical and Bioanalytical Chemistry,2013,405(14):4997-5000
[43]TARANOVA N,BERLINA A,ZHERDEV A,et al.'Traffic light'immunochromatographic test based on multicolor quantum dots for the simultaneous detection of several antibiotics in milk[J].Biosensors&Bioelectronics,2015,63:255-261
[44]CHEN X,XU Y,YU J,et al.Antigen detection based on background fluorescence quenching immunochromatographic assay[J].Analytica Chimica Acta,2014,841:44-50
[45]FU Q,LIANG J,LAN C,et al.Development of a novel dual-functional lateral-flow sensor for on-site detection of small molecule analytes[J].Sensors and Actuators B-Chemical,2014,203:683-689
[46]JIANG H,LI X,XIONG Y,et al.Silver nanoparticle-based fluorescence-quenching lateral flow immunoassay for sensitive detection of ochratoxin a in grape juice and wine[J].Toxins,2017,9(3):83
[47]ZHANG G,CHEN M,LIU D,et al.Quantitative detection of beta(2)-adrenergic agonists using fluorescence quenching by immunochromatographic assay[J].Analytical Methods,2016,8(3):627-631
[48]HU G,SHENG W,LI J,et al.Fluorescent quenching immune chromatographic strips with quantum dots and upconversion nanoparticles as fluorescent donors for visual detection of sulfaquinoxaline in foods of animal origin[J].Analytica Chimica Acta,2017,982:185-192
[49]HU G,SHENG W,LI S,et al.Quantum dot based multiplex fluorescence quenching immune chromatographic strips for the simultaneous determination of sulfonamide and fluoroquinolone residues in chicken samples[J].Rsc Advances,2017,7(49):31123-31128
[50]AUZEL F.Upconversion and anti-stokes processes with f and d ions in solids[J].Chemical Reviews,2004,104(1):139-173
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