
Citation: WANG Zi-Jian, CHEN Er-Ning, YANG Ge, ZHAO Xin-Ying, QU Feng. Research Advances of Aptamers Selection for Small Molecule Targets[J]. Chinese Journal of Analytical Chemistry, 2020, 48(5): 573-582. doi: 10.19756/j.issn.0253-3820.201101

小分子靶标的核酸适配体筛选研究进展
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关键词:
- 核酸适配体
- / 小分子
- / 指数富集配体系统进化技术
- / 综述
English
Research Advances of Aptamers Selection for Small Molecule Targets
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[1]
WANG Yong, ZHAO Xin-Ying, SHI Dong-Dong, YANG Ge, QU Feng. Chinese Journal of Chromatography,2016,34(4): 361-366 王 勇, 赵新颖, 石冬冬, 杨 歌, 屈 锋.色谱,2016,34(4): 361-366
-
[2]
Handy S M, Yakes B J, de Grasse J A, Campbell K, Elliott C T, Kanyuck K M, Degrasse S L. Toxicon,2013,61: 30-37
-
[3]
Zheng X, Hu B, Gao S X, Liu D, Sun M J, Jiao B H, Wang L H. Toxicon,2015,101: 41-47
-
[4]
Gu H, Duan N, Xia Y, Hun X, Wang H, Wang Z. J. Agric. Food Chem.,2018,66: 9801-9809
-
[5]
Ha S J, Park J H, Lee B, Kim M G. Toxins,2019,11(5): 274
-
[6]
Lin C, Liu Z S, Wang D X, Li L, Hu P, Gong S, Li Y S, Cui C, Wu Z C, Gao Y, Zhou Y, Ren H. L, Lu S Y. Mar. Drugs,2015,13(12): 7433-7445
-
[7]
Gu H, Duan N, Wu S, Hao L, Xia Y, Ma X, Wang Z. Sci. Rep.,2016,6: 21665
-
[8]
McKeague M, Velu R, Hill K, Bardoczy V, Meszaros T, DeRosa M C. Toxins,2014,6(8): 2435-2452
-
[9]
LIU Ji-Hong, HU Ying, HONG Hui-Jie, ZHANG Ling, WANG Hong-Qi. Food Safety and Quality Detection Technology,2015,6(9): 3533-3550 刘继红, 胡 颖, 洪慧杰, 张 玲, 王红旗.食品安全质量检测学报,2015,6(9): 3533-3550
-
[10]
Rangel A E, Chen Z, Ayele T M, Heemstra J M. Nucleic Acids Res.,2018,46(16): 8057-8068
-
[11]
WANG Ying, QIAO Pu, SONG Yu-Zhu, ZHANG Jin-Yang, CHEN Qiang, HAN Qin-Qin. Chinese Journal of Biochemistry Molecular Biology,2016,32(12): 1341-1346 汪 颖, 乔 璞, 宋玉竹, 张金阳, 陈 强, 韩芹芹.中国生物化学与分子生物学报,2016,32(12): 1341-1346
-
[12]
Muszynska K, Ostrowska D, Bartnicki F, Kowalska E, Bodaszewska-Lubas M, Hermanowicz P, Faulstich H, Strzalka W. Acta Biochim. Pol.,2017,64(3): 401-406
-
[13]
Gao S, Zheng X, Tang Y, Cheng Y, Hu X, Wu J. Anal Chem.,2019,91(2): 1610-1618
-
[14]
Elshafey R, Siaj M, Zourob M. Biosens. Bioelectron.,2015,68: 295-302
-
[15]
Ren S, Shin H, Gedi V, Dua P, Lee D, Kim S. Bull. Korean Chem. Soc.,2017,38: 324-328
-
[16]
Setlem K, Mondal B, Ramlal S, Kingston J. Front. Microbiol.,2016,7: 1909
-
[17]
Frohnmeyer E, Frisch F, Falke S, Betzel C, Fischer M. J. Biotechnol.,2018,269: 35-42
-
[18]
Wu S, Li Q, Duan N, Ma H, Wang Z. Microchim. Acta,2016,183(9): 2555-2562
-
[19]
ZHOU Yan, DIAO Chen-Xi, ZHANG Yuan-Yuan, LU Tao-Feng, ZHAO Li-Li, CHEN Hong-Yan. Chinese Journal of Animal Nutrition, 2018,30(9): 3740-3750 周 妍, 刁晨曦, 张圆圆, 陆涛峰, 赵丽丽, 陈洪岩.动物营养学报,2018,30(9): 3740-3750
-
[20]
Eissa S, Siaj M, Zourob M. Biosens. Bioelectron.,2015,69: 148-154
-
[21]
Gao S, Hu B, Zheng X, Cao Y, Liu D, Sun M, Jiao B, Wang L. Biosens. Bioelectron.,2016,79: 938-944
-
[22]
Ma X, Wang W, Chen X, Xia Y, Duan N, Wu S, Wang Z. Food Control,2015,47: 545-551
-
[23]
Gao S, Zheng X, Hu B, Sun M, Wu J, Jiao B, Wang L. Biosens. Bioelectron.,2017,89: 952-958
-
[24]
Spiga F M, Maietta P, Guiducci C. ACS Comb. Sci.,2015,17(5): 326-333
-
[25]
Han X, Zhang Y, Nie J, Zhao S, Tian Y, Zhou N. Microchim. Acta,2017,185(1): 4
-
[26]
Soheili V, Taghdisi S M, Khayyat M H, Bazzaz B S, Ramezani M, Abnous K. Microchim. Acta,2016,183: 1687-1697
-
[27]
Paniel N, Istamboulie G, Triki A, Lozano C, Barthelmebs L, Noguer T. Talanta,2017,162: 232-240
-
[28]
Lee A Y, Ha N R, Jung I P, Kim S H, Kim A R, Yoon M Y. Anal. Biochem.,2017,531: 1-7
-
[29]
Duan Y, Gao Z, Wang L, Wang H, Zhang H, Li H. Appl. Biochem. Biotechnol.,2016,180: 1644-1656
-
[30]
Wu S, Duan N, Zhang W, Zhao S, Wang Z. Anal. Biochem.,2016,508: 58-64
-
[31]
Groher F, Bofill-Bosch C, Schneider C, Braun J, Jager S, Geissler K, Hamacher K, Suess B. Nucleic Acids Res.,2018,46(4): 2121-2132
-
[32]
Wiedman G R, Zhao Y, Mustaev A, Ping J, Vishnubhotla R, Johnson A T C, Perlin D S. mSphere,2017,2(4): e00274-17
-
[33]
Zhang Y, You Y, Xia Z, Han X, Tian Y, Zhou N. RSC Adv.,2016,6: 99540-99545
-
[34]
Yang L, Ni H, Li C, Zhang X, Wen K, Ke Y, Yang H, Shi W, Zhang S, Shen J, Wang Z. Sens. Actuators B,2019,281: 801-811
-
[35]
Sadeghi A S, Mohsenzadeh M, Abnous K, Taghdisi S M, Ramezani M. Talanta,2018,182: 193-201
-
[36]
Wang L, Wang C, Li H. Analyst,2018,143(13): 3202-3208
-
[37]
LIU Xiao-Hui, WANG Ze-Cheng, ZHANG Xiao-Bing, XU Dan-Ke. Chinese J. Anal. Chem.,2017,45(12): 1971-1979 刘晓辉, 王则呈, 张晓兵, 许丹科.分析化学, 2017,45(12): 1971-1979
-
[38]
Dolati S, Ramezani M, Nabavinia M S, Soheili V, Abnous K, Taghdisi S M. Anal. Biochem.,2018,549: 124-129
-
[39]
Reinemann C, von Fritsch U F, Rudolph S, Strehlitz B. Biosens. Bioelectron.,2016,77: 1039-1047
-
[40]
Duan N, Gong W, Wu S, Wang Z. J. Agric. Food Chem.,2017,65: 1771-1777
-
[41]
Liu X, Lu Q, Chen S, Wang F, Hou J, Xu Z, Meng C, Hu T, Hou Y. Molecules,2018,23(9): 2337
-
[42]
YANG Ge, ZHU Chao, LIU Xiao-Hui, WANG Yong, QU Feng. Chinese J. Anal. Chem.,2018,46(10): 1595-1603 杨 歌, 朱 超, 刘晓慧, 王 勇, 屈 锋.分析化学,2018,46(10): 1595-1603
-
[43]
Akki S U, Werth C J, Silverman S K. Environ. Sci. Technol.,2015,49(16): 9905-9913
-
[44]
Vanschoenbeek K, Vanbrabant J, Hosseinkhani B, Vermeeren V, Michiels L. J. Steroid Biochem. Mol. Biol.,2015,147: 10-16
-
[45]
Yu H, Yang W, Alkhamis O, Canoura J, Yang K A, Xiao Y. Nucleic Acids Res.,2018,46(8):e43
-
[46]
Yang W, Yu H, Alkhamis O, Liu Y, Canoura J, Fu F, Xiao Y. Nucleic Acids Res.,2019,47(12): e71
-
[47]
Jimenez G C, Eissa S, Ng A, Alhadrami H, Zourob M, Siaj M. Anal. Chem.,2015,87(2): 1075-1082
-
[48]
Mehennaoui S, Poorahong S, Jimenez G C, Siaj M. Sci Rep.,2019,9: 6600
-
[49]
Zhang Y, Lu T, Wang Y, Diao C, Zhou Y, Zhao L, Chen H. J. Agric. Food Chem.,2018,66: 12102-12110
-
[50]
Skouridou V, Jauset-Rubio M, Ballester P, Bashammakh A S, El-Shahawi M S, Alyoubi A O, O’Sullivan C K. Microchim. Acta,2017,184(6): 1631-1639
-
[51]
Dwidar M, Seike Y, Kobori S, Whitaker C, Matsuura T, Yokobayashi Y. J. Am. Chem. Soc.,2019,141: 11103-11114
-
[52]
Mairal Lerga T, Jauset-Rubio M, Skouridou V, Bashammakh A S, El-Shahawi M S, Alyoubi A O, O’Sullivan C K. Anal. Chem.,2019,91: 7104-7111
-
[53]
Valenzano S, De Girolamo A, DeRosa M C, McKeague M, Schena R, Catucci L, Pascale M. ACS Comb. Sci.,2016,18: 302-313
-
[54]
Duan N, Gong W, Wu S, Wang Z. Anal. Chim. Acta,2017,961: 100-105
-
[55]
Fischer C, Kallinich C, Klockmann S, Schrader J, Fischer M. J. Agric. Food Chem.,2016,64: 9246-9252
-
[56]
Tian H, Duan N, Wu S, Wang Z. Anal. Chim. Acta,2019,1081: 168-175
-
[57]
Xing L, Zhang Y, Yang J. Biochem. Biophys. Res. Commun.,2019,514: 134-139
-
[58]
Wang J, Zhang Y, Wang H, Chen Y, Xu L, Gao T, Pei R. New J. Chem.,2016,40: 9768-9773
-
[59]
Wang Y, Wu J J, Chen Y J, Xue F, Teng J, Cao J X, Lu C X, Chen W. Microchim. Acta,2015,182(1-2): 331-339
-
[60]
Abdelsayed M M, Ho B T, Vu M M K, Polanco J, Spitale R C, Luptak A. ACS Chem. Biol.,2017,12: 2149-2156
-
[61]
Wang J, Wang Q, Luo Y, Gao T, Zhao Y, Pei R. Talanta,2019,204: 424-430
-
[62]
Lee B H, Nguyen V T, Gu M B. Biosens. Bioelectron.,2017,88: 174-18
-
[63]
Zhang A, Chang D, Zhang Z, Li F, Li W, Wang X, Li Y, Hua Q. Molecules,2017,22(3): 383
-
[64]
Komarova N, Andrianova M, Glukhov S, Kuznetsov A. Molecules,2018,23(12): 3159
-
[65]
Kuznetsov A, Komarova N, Andrianova M, Grudtsov V, Kuznetsov E. Microchim. Acta,2018,185(1): 3
-
[66]
Sabah T J, Zulkifli R M, Shahir S, Ahmed F, Kadir M R A, Zakaria Z. Anal. Biochem.,2018,549: 72-79
-
[67]
Wang H, Wang J, Wang Q, Chen X, Liu M, Chen H, Pei R. Talanta,2017,168: 217-221
-
[68]
Lotz T S, Halbritter T, Kaiser C, Rudolph M M, Kraus L, Groher F, Steinwand S, Wachtveitl J, Heckel A, Suess B. Nucleic Acids Res.,2019,47(4): 2029-2040
-
[69]
Chen Y, Wang J, Zhang Y, Xu L, Gao T, Wang B, Pei R. Photochem. Photobiol. Sci.,2018,17: 800-806
-
[70]
Wang Y, Li J, Qiao P, Jing L, Song Y, Zhang J, Chen Q, Han Q. Eur. J. Lipid. Sci. Tech.,2018,120(6): 1700112
-
[71]
Eissa S, Zourob M. Anal. Chem.,2017,89: 3138-3145
-
[72]
RAN Xu-Dong, WU Yuan-Gen. Chinese J. Anal. Chem.,2019,47(4): 567-575 冉旭东, 吴远根.分析化学,2019,47(4): 567-575
-
[73]
Hong K L, Sooter L J. Int. J. Mol. Sci.,2018,19: 85
-
[74]
Abraham K M, Roueinfar M, Ponce A T, Lussier M E, Benson D B, Hong K L. ACS Omega,2018,3: 13576-13583
-
[75]
Luo Y, Wang J, Yang L, Gao T, Pei R. Sens. Actuators B,2018,276: 128-135
-
[76]
Ozyurt C, Canbay Z C, Dinckaya E, Evran S. Int. J. Biol. Macromol.,2019,129: 91-97
-
[77]
Gu C, Lan T, Shi H, Lu Y. Anal. Chem.,2015,87(15): 7676-7682
-
[78]
Yang L, Ding P, Luo Y, Wang L, Lv H, Li W, Cao Y, Pei R. ACS Comb. Sci.,2019,21: 83-89
-
[79]
Wu X, Diao D, Lu Z, Han Y, Xu S, Lou X. J. Vis. Exp.,2018,(133): e56814
-
[80]
Hu Q, Wang R, Wang H, Slavik Michael F, Li Y. Sens. Actuators B,2018,273: 220-227
-
[81]
Cho Y S, Lee E J, Lee G H, Hah S S. Bioorg. Med. Chem. Lett.,2015,25(23): 5536-5539
-
[82]
Chen Y, Li H, Gao T, Zhang T, Xu L, Wang B, Wang J, Pei R. Sens. Actuators B,2018,254: 214-221
-
[83]
Edogun O, Nguyen N H, Halim M. Anal. Bioanal. Chem.,2016,408: 4121-4131
-
[84]
Wang H, Cheng H, Wang J, Xu L, Chen H, Pei R. Talanta,2016,154: 498-503
-
[85]
Park J W, Tatavarty R, Kim D W, Jung H T, Gu M B. Chem. Commun., 2012,48: 2071-2073
-
[86]
LIU Shu-Xia, ZHAO Xin-Ying, PEI Zhi-Yong, YANG Jie, LIU Man-Jiao, YUAN Han-Yu. China Patent 201910514445.4 刘书霞, 赵新颖, 裴智勇, 杨 杰, 刘满姣, 袁寒玉.中国专利,201910514445.4
-
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