Abstract
In this study, the main detection methods based on specific molecular recognition of biological probes in recent years are reviewed, including enzyme-linked immunosorbent assay, lateral flow immunoassay and electrochemical biosensor. The advantages and disadvantages of each method are analyzed.
Publication Date
4-28-2020
First Page
221
Last Page
225
DOI
10.13652/j.issn.1003-5788.2020.04.040
Recommended Citation
Ting-ting, CHEN; Xin, WANG; and Xiao-qi, TAO
(2020)
"Research progress in detection of estrogen residues in food by biological probes based on specific molecular recognition,"
Food and Machinery: Vol. 36:
Iss.
4, Article 40.
DOI: 10.13652/j.issn.1003-5788.2020.04.040
Available at:
https://www.ifoodmm.cn/journal/vol36/iss4/40
References
[1] 卢安根,黄志标,杜寒春,等.水产品中环境雌激素特性及检测技术研究进展[J].广西科学院学报,2011,27(3):269-272.
[2] 李建平.水中雌激素类内分泌干扰物检测技术研究进展[J].职业与健康,2018,34(17):2 440-2 444.
[3] WANG Shu,LI Yun,DING Mei-juan,et al.Self-assembly molecularly imprinted polymers of 17β-estradiol on the surface of magnetic nanoparticles for selective separation and detection of estrogenic hormones in feeds[J].Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences,2011,879(25):2 595-2 600.
[4] 白宇,胡景炎,张井.食源性雌二醇残留检测技术研究进展[J].食品与发酵工业,2017,43(12):253-261.
[5] 宫向红,徐英江,张秀珍,等.气相色谱—质谱法测定水产品中的己烯雌酚[J].食品科学,2009,30(2):168-169.
[6] 邓维琴,李阿霜,彭贤,等.高效液相色谱—紫外检测法测定微生物降解体系中己烯雌酚含量[J].食品与机械,2016,32(1):51-55.
[7] 徐鸿.固相萃取—液相色谱—串联质谱法检测水中4种雌激素[J].供水技术,2017,11(2):56-58.
[8] 韩智,王会霞,龚蕾,等.UPLC-MS/MS同时测定红糖中9种雌性激素[J].食品与机械,2019,35(5):96-100.
[9] 张泸文,余婉松,夏苏捷,等.基于表面增强拉曼光谱的养殖水中五氯酚残留检测[J].食品与机械,2019,35(12):82-86,157.
[10] HOLGER H,CHRISTIAN K,MAREN K,et al.LC-ELISA as a contribution to the assessment of matrix effects with environmental water samples in an immunoassay for estrone(E1)[J].Accreditation and Quality Assurance,2018,23(6):349-364.
[11] MANICKUM T,JOHN W.The current preference for the immuno-analytical ELISA method for quantitation of steroid hormones(endocrine disruptor compounds)in wastewater in South Africa[J].Analytical and Bioanalytical Chemistry,2015,407(17):4 949-4 970.
[12] CHAINGAM J,KITISRIPANYA T,KRITTANAI S,et al.Development of a simple and rapid method for the detection of isomiroestrol in Pueraria candollei by an immunochromatographic strip test[J].Journal of Natural Medicines,2019,73(3):577-583.
[13] ALIREZA N,RAHIM N,BEHROUZ G,et al.Nanomaterial-based aptasensors and bioaffinity sensors for quantitative detection of 17β-estradiol[J].Trends in Analytical Chemistry,2017,94:95-105.
[14] 戚平,刘佳,毛新武,等.食品中色素检测的研究进展[J].食品与机械,2018,34(11):167-173.
[15] CHATCHAPORN U,ROBIN D A,CHUNHUA L,et al.17β-Estradiol residues and estrogenic activities in the Hawkesbury River,Australia[J].Ecotoxicology and Environmental Safety,2018,164:363-369.
[16] 梁祖培,冯观萍,吴民富,等.生物素—亲和素放大酶联免疫吸附法测定牛奶中雌三醇[J].广东化工,2018,45(11):72-75.
[17] 顾建华.酶联免疫吸附方法检测卵黄蛋白原在研究环境雌激素中的应用[J].生命科学仪器,2006,4(2):12-14.
[18] 白宇,胡景炎,许永鹏,等.雌二醇单克隆抗体制备及间接竞争ELISA检测方法的建立[J].中国畜牧兽医,2017,44(10):3 100-3 105.
[19] 何方洋,杨昌松,韩深,等.应用酶联免疫法测定环境水样中雌三醇的残留量[J].江苏农业学报,2017,33(6):1 422-1 426.
[20] 王佳,陶晓奇.动物源食品中磺胺类药物残留的免疫分析方法研究进展[J].食品与发酵工业,2018,44(10):260-267.
[21] 黄超,张文帅,张黎,等.基于上转化发光免疫层析技术建立发热伴血小板减少综合征病毒总抗体快速检测方法[J].江苏预防医学,2015,26(4):1-3.
[22] 任志奇,吴英松,刘天才.新型免疫层析技术的研究进展[J].广东医学,2013,34(2):312-314.
[23] 李靖靖,郭林.免疫法检测瘦肉精的现状及其发展[J].食品与机械,2012,28(3):266-269.
[24] WANG Zhong-xing,GUO Ling-ling,LIU Li-qiang,et al.Colloidal gold-based immunochromatographic strip assay for the rapid detection of three natural estrogens in milk[J].Food Chemistry,2018,259:122-129.
[25] 白宇,张井,胡景炎,等.牛奶中雌二醇胶体金试纸条快速检测技术研究[J].中国畜牧兽医,2017,44(11):3 351-3 357.
[26] 陆必科.胶体金免疫层析技术在兽药残留检测中的应用及发展前景[J].饲料博览,2014(7):46-50.
[27] 姜会聪,任舒悦,王瑜,等.上转换发光免疫层析法快速检测牛奶中雌二醇[J].食品研究与开发,2017,38(3):119-123.
[28] 王瑜,任舒悦,姜会聪,等.上转换发光免疫层析试纸条快速定量检测己烯雌酚[J].分析化学,2017,45(1):35-41.
[29] LEIVO J,KIVIMKI L,JUNTUNEN E,et al.Development of anti-immunocomplex specific antibodies and non-competitive time-resolved fluorescence immunoassay for the detection of estradiol[J].Analytical and Bioanalytical Chemistry,2019,411(22):5 633-5 639.
[30] 王紫梦,鲁迨,石星波,等.食品中丙烯酰胺检测新技术研究进展[J].食品与机械,2016,32(10):210-214,220.
[31] CARUANE A D,MARTIN K L D S,RAFAEL P S,et al.Reduced graphene oxide modified with silver nanoparticles for the electrochemical detection of estriol[J].Journal of Electroanalytica1l Chemistry,2018,809:67-73.
[32] LETÄCIA V J,FABRíCIO A S,VALTENCIR Z,et al.Electrochemical sensor for estriol hormone detection in biological and environmental samples[J].Journal of Solid State Electrochemistry,2018,22(5):1 431-1 438.
[33] 王延新,谢书宇,陈冬梅,等.电化学免疫传感器在食品安全检测中的研究进展[J].畜牧兽医学报,2018,49(7):1 334-1 342.
[34] 秦艺菲,冷雪琪,宋晓蕾,等.无标电化学免疫传感器灵敏检测17β-雌二醇[J].曲阜师范大学学报:自然科学版,2017,43(2):78-83.
[35] WEN Tao,WANG Meng-long,LUO Mei,et al.A nanowell-based molecularly imprinted electrochemical sensor for highly sensitive and selective detection of 17β-estradiol in food samples[J].Food Chemistry,2019,297:1-7.
[36] NAJIB B M,ABDELLATIF A L,CHéRIF D,et al.Ultrasound assisted magnetic imprinted polymer combined sensor based on carbon black and gold nanoparticles for selective and sensitive electrochemical detection of Bisphenol A[J].Sensors and Actuators B-chemical,2018,276:304-312.
[37] 田艳丽,朱秋劲,台红杏,等.选择性识别酪胺分子印迹聚合物的制备及其表征[J].食品与机械,2014,30(3):54-58,210.
[38] 李俣珠,李增威,曾月,等.分子印迹传感器的制备方法与应用进展[J].化学世界,2019,60(8):465-475.
[39] 季兆洁,王雷,陈云娜,等.基于核酸适配体的生物分析新方法研究进展[J].现代生物医学进展,2019,19(7):1 387-1 391.
[40] NAMEGHI M A,DANESH N M,RAMEZANI M,et al.An ultrasensitive electrochemical sensor for 17β-estradiol using split aptamers[J].Analytica Chimica Acta,2019,1 065:107-112.
[41] 陈志超.基于生物信号放大技术的核酸适配体传感新方法研究[D].黄石:湖北师范大学,2019:1.