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Food and Agricultural Immunology Volume 30, 2019 - Issue 1
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Articles

Development of a quantum dot-labelled biomimetic fluorescence immunoassay for the simultaneous determination of three organophosphorus pesticide residues in agricultural products

Mingdi Jianga Key Laboratory of Food Processing Technology and Quality Control in Shandong Province, College of Food Science and Engineering, Shandong Agricultural University, Tai’an, People’s Republic of ChinaView further author information
,
Jingbo Hea Key Laboratory of Food Processing Technology and Quality Control in Shandong Province, College of Food Science and Engineering, Shandong Agricultural University, Tai’an, People’s Republic of ChinaView further author information
,
Junjie Gongb LongDa Foodstuff Group Co., Ltd., Yantai, People’s Republic of ChinaView further author information
,
Huiju Gaoc College of Forestry, Shandong Agricultural University, Tai’an, People’s Republic of ChinaCorrespondence[email protected]
View further author information
&
Zhixiang Xua Key Laboratory of Food Processing Technology and Quality Control in Shandong Province, College of Food Science and Engineering, Shandong Agricultural University, Tai’an, People’s Republic of ChinaCorrespondence[email protected]
View further author information
Pages 248-261 | Received 13 Oct 2018, Accepted 11 Dec 2018, Published online: 01 Mar 2019

References

  • Cheng, Z., Dong, F., Xu, J., Liu, X., Wu, X., Chen, Z., … Zheng, Y. Q. (2017). Simultaneous determination of organophosphorus pesticides in fruits and vegetables using atmospheric pressure gas chromatography quadrupole-time-of-flight mass spectrometry. Food Chemistry, 231, 365–373.
  • Fan, J. P., Xu, X. K., Xu, R., Zhang, X. H., & Zhu, J. H. (2015). Preparation and characterization of molecular imprinted polymer functionalized with core/shell magnetic particles (Fe3O4@SiO2@MIP) for the simultaneous recognition and enrichment of four taxoids in Taxus × media. Chemical Engineering Journal, 279, 567–577.
  • Farajzadeh, M. A., Mogaddam, M. R. A., Aghdam, S. R., Nouri, N., & Bamorrowat, M. (2016). Application of elevated temperature-dispersive liquid-liquid microextraction for determination of organophosphorus pesticides residues in aqueous samples followed by gas chromatography-flame ionization detection. Food Chemistry, 212, 198–204.
  • Fernandes, V. C., Subramanian, V., Mateus, N., Domingues, V. F., & Deleruematos, C. (2012). The development and optimization of a modified single-drop microextraction method for organochlorine pesticides determination by gas chromatography-tandem mass spectrometry. Microchimica Acta, 178(1-2), 195–202.
  • Harshit, D., Charmy, K., & Nrupesh, P. (2017). Organophosphorus pesticides determination by novel HPLC and spectrophotometric method. Food Chemistry, 230, 448–453.
  • He, Y., Lu, H., Su, Y., Sai, L., Hu, M., Fan, C., & Wang, L. (2011a). Ultra-photostable, non-cytotoxic, and highly fluorescent quantum nanospheres for long-term, high-specificity cell imaging. Biomaterials, 32(8), 2133–2140.
  • He, J., & Ming-Tao, F. (2012). Multi-analyte immunoassay for pesticides: A review. Analytical Letters, 45(11), 1347–1364.
  • He, Y., Zhong, Y., Peng, F., Wei, X., Su, Y., Lu, Y., … Lee, S. T. (2011b). One-pot microwave synthesis of water-dispersible, ultraphoto- and ph-stable, and highly fluorescent silicon quantum dots. Journal of the American Chemical Society, 133(36), 14192–14195.
  • Hou, J. Y., Dong, G. J., Tian, Z. B., Lu, J. T., Wang, Q. Q., Ai, S. Y., & Wang, M. L. (2016). A sensitive fluorescent sensor for selective determination of dichlorvos based on the recovered fluorescence of carbon dots-Cu(II) system. Food Chemistry, 202, 81–87.
  • Hu, T. T., Lu, C. M., Li, H., Zhang, Z. X., Zhao, Y. H., & Li, J. (2017). Determination of eleven organophosphorus pesticide residues in textiles by using HPLC-HRMS. Analytical Sciences the International Journal of the Japan Society for Analytical Chemistry, 33(9), 1027.
  • Hu, Y., Shen, G., Zhu, H., & Jiang, G. (2010). A class-specific enzyme-linked immunosorbent assay based on magnetic particles for multiresidue organophosphorus pesticides. Journal of Agricultural and Food Chemistry, 58(5), 2801–2806.
  • Hu, G., Sheng, W., Zhang, Y., Wang, J., Wu, X., & Wang, S. (2016). Upconversion nanoparticles and monodispersed magnetic polystyrene microsphere based fluorescence immunoassay for the detection of sulfaquinoxaline in animal-derived foods. Journal of Agricultural and Food Chemistry, 64(19), 3908–3915.
  • Jiang, M. D., Wu, S., Xu, L. H., Qiao, X. G., & Xu, Z. X. (2017). Determination of trichlorfon residues in vegetables using a quantum dot-labeled biomimetic immunoassay method followed by capillary electrophoresis. Food and Agricultural Immunology, 28(6), 1242–1255.
  • Kolberg, D. I., Prestes, O. D., Adaime, M. B., & Zanella, R. (2011). Development of a fast multiresidue method for the determination of pesticides in dry samples (wheat grains, flour and bran) using QuEChERS based method and GC-MS. Food Chemistry, 125(4), 1436–1442.
  • Kou, T. T., Kun-Long, X. U., Zhang, L. Z., Yang, J., Wang, D. L., & Chen, Y. F. (2010). GC with flame photometric detection for the simultaneous determination of organophosphorus pesticide multiple residues in pu-erh tea. Food Science, 31(12), 165–168.
  • Liang, D. Q., Ken-Ming, S. U., Zhang, J. M., & Guo, W. P. (2014). Determination of 23 organophosphorus pesticide residues in lentinus edodes by high performance liquid chromatography-tandem mass spectrometry. Food Science, 35(4), 159–162.
  • Liang, X., Xie, R., Wang, C. M., Gui, W. J., & Zhu, G. N. (2013). Development of a broad-selective immunoassay for multi-residue determination of type ii pyrethroids in west lake water. Food and Agricultural Immunology, 24(1), 59–78.
  • Liu, H., Fang, G., & Wang, S. (2014). Molecularly imprinted optosensing material based on hydrophobic CdSe quantum dots via a reverse microemulsion for specific recognition of ractopamine. Biosensors & Bioelectronics, 55(10), 127–132.
  • Liu, B., Ge, Y., Zhang, Y., Song, Y., Lv, Y. Y., Wang, X. X., & Wang, S. (2012a). Production of the class-specific antibody and development of direct competitive ELISA for multi-residue detection of organophosphorus pesticides. Food and Agricultural Immunology, 23(2), 157–168.
  • Liu, Y. H., Xie, R., Guo, Y. R., Zhu, G. N., & Tang, F. B. (2012b). Comparison of homologous and heterologous formats in nanocolloidal gold-based immunoassays for parathion residue determination. Journal of Environmental Science & Health Part B, 47(5), 475–483.
  • Pan, L. L., Sun, J. T., Li, Z. H., Yu, Z., Shen, X., & Zhu, L. Z. (2016). Organophosphate pesticide in agricultural soils from the Yangtze River Delta of China: Concentration, distribution, and risk assessment. Environmental Science & Pollution Research International, 25(1), 1–8.
  • Ronald Erney, D. (2015). Determination of organophosphorus pesticides in whole/chocolate/skim-milk and infant formula using solid-phase extraction with capillary gas chromatography/flame photometric detection. Journal of Separation Science, 18(1), 59–62.
  • Song, Y., Zhang, Y., Wang, S., & Wang, J. (2016). Determination of metolcarb residues by a biotin-streptavidin-amplified enzyme-linked immunosorbent assay in vegetables and edible fungus. Food & Agricultural Immunology, 27(2), 194–204.
  • Taghani, A., Goudarzi, N., Bagherian, G., Chamjangali, M. A., & Amin, A. H. (2018). Application of nano-perlite as a new natural sorbent in preconcentration of three organophosphorus pesticides by microextraction in packed syringe coupled with gc-ms. Journal of Separation Science, 41(10), 2245.
  • Tang, Y., Fang, G., Wang, S., Sun, J., & Qian, K. (2013). Rapid determination of metolcarb residues in foods using a biomimetic enzyme-linked immunosorbent assay employing a novel molecularly imprinted polymer film as artificial antibody. Journal of Aoac International, 96(2), 4553–4458.
  • Tanhaei, B., Ayati, A., Lahtinen, M., & Sillanpää, M. (2015). Preparation and characterization of a novel chitosan/Al2O3/magnetite nanoparticles composite adsorbent for kinetic, thermodynamic and isotherm studies of methyl orange adsorption. Chemical Engineering Journal, 259, 1–10.
  • Tao, L., Yong, X., Zhu, L., & Lei, Z. (2016). Rapid and sensitive detection of 3-amino-2-oxazolidinone using a quantum dot-based immunochromatographic fluorescent biosensor. Journal of Agricultural & Food Chemistry, 64(45), 8678–8683.
  • Thanhdong, N., Yu, J. E., Daemyung, L., & Gaeho, L. (2008). A multiresidue method for the determination of 107 pesticides in cabbage and radish using QuEChERs sample preparation method and gas chromatography mass spectrometry. Food Chemistry, 110(1), 207–213.
  • Wang, H., Li, G. H., Chen, T., Xue, X. P., & Zhang, Y. (2015). Immunoassay for multiple residues of organophosphorus pesticides using broad spectrum of monoclonal antibodies. Journal of Food Safety & Quality, 165(4), 163–199.
  • Wang, C., Li, X., & Liu, Y. (2010). Development of a mab-based heterologous immunoassay for the broad-selective determination of organophosphorus pesticides. Journal of Agricultural and Food Chemistry, 58(9), 5658–5663.
  • Wang, G., Ma, Z., Yu, T., & He, F. (2000). Synthesis and identification of methylparathion artificial antigen. Journal of Hygiene Research, 29(2), 69–70.
  • Yang, L. X., Li, H. I., Zeng, F. G., Liu, Y. P., Li, R. F., Chen, H. J., … Wu, Y. N. (2012). Determination of 49 organophosphorus pesticide residues and their metabolites in fish, egg, and milk by dual gas chromatography–dual pulse flame photometric detection with gel permeation chromatography cleanup. Journal of Agricultural & Food Chemistry, 60(8), 1906.
  • Zhang, C., Han, Y., Li, L., Deng, N., Bo, C., & Yuan, L. (2017). Development of quantum dots-labeled antibody fluorescence immunoassays for the detection of morphine. Journal of Agricultural & Food Chemistry, 65(6), 1290–1295.
  • Zheng, C. H., Yang, L. G., Yao, Z. Y., Zhao, D. Y., & Yang, M. M. (2009). Application of electrospunpolymer nanofibers in the determination of five organophosphorus pesticides by HPLC. Journal of Instrumental Analysis, 28(8), 926–930.
  • Zhu, F., Ruan, W. H., He, M. H., Zeng, F., Luan, T. G., Tong, Y. X., … OuYang, G. F. (2009). Application of solid-phase microextraction for the determination of organophosphorus pesticides in textiles by gas chromatography with mass spectrometry. Analytica Chimica Acta, 650(2), 202–206.

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