连续流动式聚合酶链式反应生物芯片/微装置中脱氧核糖核酸样品的驱动控制技术进展
PROGRESS OF ACTUATION CONTROL TECHNIQUE OF SAMPLES IN MICRO-DEVICE OF CONTINUOUS-FLOW POLYMERASE CHAIN REACTION BIOCHIP
摘 要
介绍国内外连续流动式聚合酶链式反应生物芯片/微装置中脱氧核糖核酸样品的驱动控制技术进展,主要包括恒流泵(注射泵驱动和蠕动泵驱动)、旋转泵驱动、磁流体动力驱动以及自然对流驱动等.并对这几种驱动方式的优缺点作简要的讨论(引用文献43篇).
DNA样品
驱动控制技术
Continuous-flow polymerase chain reaction Bio-chip
DNA sample
Actuation control technique
Abstract
A review of the recent progress of actuation control technique of DNA samples in micro-device of continuous-flow polymer ase chain reaction biochip,covering mainly the years from 1985 to 2006 was presented in this paper,pertaining especially to the actuation by constant flow pumps (actuated with injection pump and peristaltic pump),by rotary pump,and magnetohydrodynamic actuation and natural convection actuation;and a brief discussion on the merits and defects of various ways of actuation was also given (43 ref.cited).
中图分类号 Q5 TP6
所属栏目 综述
基金项目 国家自然科学基金资助项目(50476088)
收稿日期 2006/7/31
修改稿日期
网络出版日期
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备注章春笋(1974-),男,江苏省淮安市人,博士研究生,主要从事生物微电子机械系统以及生物微流控系统的研究.
引用该论文: ZHANG Chun-sun,XU Jin-liang. PROGRESS OF ACTUATION CONTROL TECHNIQUE OF SAMPLES IN MICRO-DEVICE OF CONTINUOUS-FLOW POLYMERASE CHAIN REACTION BIOCHIP[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2006, 42(12): 1063~1068
章春笋,徐进良. 连续流动式聚合酶链式反应生物芯片/微装置中脱氧核糖核酸样品的驱动控制技术进展[J]. 理化检验-化学分册, 2006, 42(12): 1063~1068
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参考文献
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【10】Yu Xiaomei,Zhang Dacheng,Li Ting,et al.Sens Actuat A[J],2003,108:103.
【11】Zhao Zhan,Cui Zheng,Cui Dafu,et al.Sens Actuat A[J],2003,108:162.
【12】赵湛,崔大付,于中尧,等.传感器技术[J],2001,20(6):56.
【13】徐静平,黎沛涛,甘侠林,等.华中科技大学学报[J],2001,29(12):45.
【14】周天,邹志清,赵建龙,等.功能材料与器件学报[J],2003,9(2):191.
【15】Obeid P J,Christopoulos T K.Anal Chim Acta[J],2003,494:1.
【16】Belgrader P,Elkin C J,Brown S B,et al.Anal Chem[J],2003,75(14):3446.
【17】Park N,Kim S,Hahn J H.Anal Chem[J],2003,75(21):6029.
【18】Hashimoto M,Chen P C,Mitchell M W,et al.Lab Chip[J],2004,4:638.
【19】Dorfman K D,Chabert M,Codarbox J H,et al.Anal Chem[J],2005,77(11):3700.
【20】Hashimoto M,Hupert M L,Murphy M C,et al.Anal Chem[J],2005,77(10):3243.
【21】Hashimoto M,Barany F,Soper S A.Biosens Bioelectron[J],2006,21 (10):1915-1923.
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【27】Curcio M.Anal Chem[J],2003,75(1):1.
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【35】Bader J S,Hammond R W,Henck S A,et al.Proc Natl Acad Sci USA[J],1999,96:13165.
【36】Chou H P,Unger M A,Quake S R.Biomed Microdevices[J],2001,3:323.
【37】Lemoff A V.Sens Actuat B[J],2000,63:178.
【38】West J,Karamata B,Lillis B,et al.Lab on a chip[J],2002,2:224.
【39】Krishnan M,Ugaz V M,Burns M A.Science[J],2002,298:793.
【40】Braun D,Goddard N L,Libchaber A.Phys Rev Lett[J],2003,91(15):1381031.
【41】Wheeler E K,Benett W,Stratton P,et al.Anal Chem[J],2004,76(14):4011.
【42】Krishnan M,Agrawal N,Burns M A,et al.Anal Chem[J],2004,76(21):6254.
【43】Chen Z,Qian S,Abrams W R,et al.Anal Chem[J],2004,76(13):3707.
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