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Progress in Chemistry 2005, Vol. 17 Issue (05): 911-915 Previous Articles   Next Articles

• Review •

Applications of Nanoparticles in Electrochemical DNA Biosensors

Qi Honglan;Zhang Chengxiao**   

  1. School of Chemistry and Materials Science, Shaanxi Normal University,Xi'an 710062,China
  • Received: Revised: Online: Published:
  • Contact: Zhang Chengxiao
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Much attention has been drawn to nanoparticles in electrochemical deoxyribonucleic acid (DNA) biosensors due to the advantage of enhancing the sensitivity of the biosensors. The principle and classification of electrochemical DNA biosensors are introduced. The applications of nanoparticles in electrochemical DNA biosensors are reviewed in detail.
Key words: electrochemical biosensors, deoxyribonucleic acid (DNA), nanoparticles

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[ 1 ] Vercoutere W, Akeson M1 Current Opinion in Chemical Biology ,2002 , 6(6) : 816 —822
[ 2 ] Thorp H H , March T. Trends in Biotech. , 1998 , 16 : 117 —121
[ 3 ] Wang J . Anal . Chim. Acta , 2002 , 469 (1) : 63 —71
[ 4 ] Palecek E. Talanta , 2002 , 56 : 809 —819
[ 5 ] Drummond T G, Hill M G, Barton J K. Nature Biotech. , 2003 ,21 (10) : 1192 —1199
[ 6 ] 庞代文(Pang D W) , 齐义鹏(Qi Y P) , 王宗礼(Wang Z L)等. 化学通报(Chemistry) , 1994 , (2) : 1 —4
[ 7 ] 陆晓军(Lu X J) , 鞠幌先(Ju H X) . 分析化学(Chinese J .Anal . Chem. ) , 2003 , 31 (1) : 110 —115
[ 8 ] 翟俊辉(Zhai J H) , 崔红(Cui H) , 杨瑞馥( Yang R F) . 生物化学与生物物理进展( Prog. Biochem. Biophys. ) , 1997 ,(2) : 112 —115
[ 9 ] 杜晓燕(Du X Y) , 陈文华(Chen W H) , 常东(Chang D) .传感技术学报(Chinese J . Sensors and Actuators) , 2002 , 4 :347 —352
[10] 纪军(Ji J ) , 杨瑞馥( Yang R F) . 生物技术通讯(Letter in Biotechnology) , 2002 , 2 : S17 —S19
[11] 马丽(Ma L) , 白燕(Bai Y) , 刘仲明(Liu Z M) 等. 传感器技术(Journal of Transducer Technology) , 2002 , 3 : 58 —64
[12] Yang M S , McGovern M E , Thompson M. Anal . Chim. Acta ,1997 , 346 : 259 —275
[13] Martin C R , Mitchell D T. Anal . Chem. , 1998 , 70 : 322A —327A
[14] Wang J . Anal . Chim. Acta , 2003 , 500 : 247 —257
[15] Niemeyer C M. Science , 2002 , 297 (5578) : 62 —63
[16] Koropchak J A , Sadain S , Yang X, et al . Anal . Chem. , 1999 ,71 (11) : 386A —394A
[17] Jain K K. Expert Rev. Mol . Diagn. , 2003 , 3 (2) : 153 —161
[18] Pividori M I , Merkoci A , Alegret S. Biosens. Bioelectron. ,2000 , 15 : 291 —303
[19] Palecek E , Fojta M. Anal . Chem. , 1994 , 66 : 1566 —1571
[20] Wang J , Cai X H , Rivas G, et al . Anal . Chem. , 1996 , 68 :2629 —2634
[21] Liu S H , Ye J N , Fang Y Z , et al . Anal . Chim. Acta , 1996 ,335 : 239 —243
[22] Herne T M, Tarlov M J . J . Am. Chem. Soc. , 1997 , 119 (38) :8916 —8920
[23] Cai H , Xu C M, Fang Y Z , et al . J . Electroanal . Chem. , 2001 ,510 (1/2) : 78 —85
[24] Cai H , Cao X, Fang Y Z , et al . Anal . Bioanal . Chem. , 2003 ,375 (2) : 287 —293
[25] Wang J . Electroanalytical Chemistry ( ed. Bard A J ) . NY:Marcel Dekker , 1989. 16 : 1 —87
[26] Authier L , Grossiord C , Berssier P , et al . Anal . Chem. , 2001 ,73 : 4450 —4456
[27] Ozsoz M, Erdem A , Kerman K, et al . Anal . Chem. , 2003 , 75(9) : 2181 —2187
[28] Cai H , Xu Y, Fang Y Z , et al . Analyst , 2002 , 127 (6) : 803 —808
[29] Wang J , Rincon O , Polsky R , et al . Electrochem. Commun. ,2003 , 5 : 83 —86
[30] Wang J , Liu G D , Polsky R , et al . Electrochem. Commun. ,2002 , 4 : 722 —726
[31] Zhu N , Zhang A , Fang Y Z , et al . Analyst , 2003 , 128 (3) :260 —264
[32] Wang J , Liu G, Merko?i A. J . Am. Chem. Soc. , 2003 , 125 :3214 —3215
[33] Cai H , Wang YQ , Fang Y Z , et al . Anal . Chim. Acta , 2002 ,469 (2) : 165 —172
[34] Lee T M H , Li L L , Hsing I M. Langmuir , 2003 , 19 : 4338 —4343
[35] Wang J , Liu G D , Merko?i A. Anal . Chim. Acta , 2003 , 482(2) : 149 —155
[36] Cai H , Zhu N N , Fang YZ , et al . Biosens. Bioelectron. , 2003 ,18 : 1311 —1319
[37] Zhu N N , Cai H , Fang Y Z , et al . Anal . Chim. Acta , 2003 ,481 (2) : 181 —189
[38] Wang J , Polsky R , Merko?i A , et al . Langmuir , 2003 , 19 :989 —991
[39] Palecek E , Billova S , Havran L , et al . Talanta , 2002 , 56 :919 —930
[40] Palecek E , Fojta M, Jelen F. Bioelectrochem. , 2002 , 56 (1/2) :85 —90
[41] Wang J , Kawde A. Electrochem. Commun. , 2002 , 4 : 349 —352
[42] Wang J , Xu D , Kawde A N , et al . Anal . Chem. , 2001 , 73(22) : 5576 —5581
[43] Wang J , Polsky R , Danke X. Langmuir , 2001 , 17 : 5739 —5741
[44] Wang J , Xu D , Polsky R. J . Am. Chem. Soc. , 2002 , 124 :4208 —4209
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