期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

基于微流体芯片用于单个DNA分子检测的共焦激光诱发荧光系统(英文) 被引量:1

A Confocal Laser-induced Fluorescence System for Detection of Single DNA Molecules in a Thermoplastic Microfluidic Chip
下载PDF
导出
摘要 微流体分析中常用的荧光检测是一种模拟方式的测量,并且通常情况下测量信号的强度会随着分析物采样量的减少而减弱。本文构建了一种共焦光学系统的激光诱发荧光单分子检测仪器,可以进行单个脱氧核糖核酸分子的数字化测量,采用这种仪器检测可不依赖于样品的多少;对诱发激光的功率大小进行了优化,当诱发激光的功率为1 mW时信噪比最高,可达30;对用于制造微流体芯片的几种不同高分子基片材料也做了检验和比较,其中环烯烃共聚物具有极低的自发荧光背景,这对光子簇的识别非常有利,实验结果表明环烯烃共聚物是制造单分子检测微流体芯片的首选材料;这种单分子检测仪器能够对流经微流体通道的单个脱氧核糖核酸分子进行数字式甄别,其动态检测范围上至25 pmol/L,下至单个分子水平。本研究中对单分子检测实验所涉及的一些方面进行了考虑,这为单分子测量在更大范围内生物分析上更多的实际应用提供了依据。 Fluorescence detection commonly used in microfluidic analysis is an analog measurement,and the signal intensity is usually weakened by reduced sample size.This report presents a laser-induced fluorescence single-molecule detection instrument with confocal setup for digital counting of single DNA molecules,which does not depend on sample size.The instrument setup is thoroughly described.The applied laser power was optimized and the highest signal-to-background ratio of 30 was achieved at the optimal laser power of 1 mW. Different polymer substrates were examined and compared,and COC was demonstrated to be the substrate of choice to make microfluidic chip for singlemolecule detection attributed to its superb autofluorecence background, which favors photon burst identification.This single-molecule detector is able to digitally count the number of individual DNA molecules that flow through microfluidic channels,and its dynamic range spans up to 25 pM and down to the "single molecule" level.The considerations on various aspects of the single-molecule detection experiment in this study pave a way to performing more practical single-molecule measurements in a broader range of bioanalytical applications.
作者 彭志勇
机构地区 路易斯安那州立大学化学系
出处 《石河子大学学报(自然科学版)》 CAS 2014年第3期371-377,共7页 Journal of Shihezi University(Natural Science)
基金 the financial support of this work through National Institute of Health and the Louisiana Board of Regents
关键词 单分子 共焦距 激光诱发荧光 微流体 环烯烃共聚物 single-Molecule confocal laser-induced fluorescence microfluidic COC
分类号 O657.39 [理学—分析化学]
  • 相关文献

参考文献16

  • 1Mogensen K B,Klank H,Kutter J P.Recent developments in detection for microfluidic systems [J].Electrophoresis, 2004,25 (21-22):3498-512.
  • 2Eigen M,Rigler R.Sorting single molecules:application to diagnostics and evolutionary biotechnology [J].Proc Natl Acad Sci U S A,1994,91 (13):5740-7.
  • 3Effenhauser C S,Bruin G J M,Paulus A.Integrated capillary electrophoresis on flexible silicone microdevices:Analysis of DNA restriction fragments and detection of single DNA molecules on microchips [J].Analytical Chemistry,1997,69 (17):3451-3457.
  • 4Fister J C,Jacobson S C,Davis L M.Counting single chromophore molecules for uhrasensitive analysis and separations on microchip devices[J].Analytical Chemistry, 1998,70 (3):431-437.
  • 5Haab B B,Mathies R A.Single-molecule detection of DNA separations in microfabricated capillary ele,ctrophoresis chips employing focused molecular streams [J].AnalyticalChemistry,1999,71 (22):5137-5145.
  • 6Gosch M,Blom H,Holm J.Hydrodynamic flow profiling in microchannel structures by single molecule fluorescence correlation spectroscopy [J].Analytical Chemistry,2000,72 (14):3260-3265.
  • 7Wabuyele M B,Ford S M,Stryjewski W.Single molecule de- tection of double-stranded DNA in poly (methylmethacry- late) and polycarbonate microfluidic devices [J].Elec- trophoresis, 2001,22 (18):3939-48.
  • 8Weiss S.Fluorescence spectroscopy of single biomolecules [J].Science,1999,283 (5408):1676-83.
  • 9Kang S H,Lee S,Yeung E S.Direct observation of single native DNA molecules in a microchannel by differential interference contrast microscopy [J].Analytical Chemistry, 2004,76 (15):4459-4464.
  • 10Emory J M,Soper S A.Charge-coupled device operated in a time-delayed integration mode as an approach to high- throughput flow-based single molecule analysis[J].Analyt- ical Chemistry,2008,80 (10):3897-3903.

同被引文献55

  • 1许宝建,金庆辉,赵建龙.基于MEMS微针技术的研究现状与展望[J].微纳电子技术,2005,42(4):150-156. 被引量:12
  • 2白春礼.纳米科技发展趋势分析(一)[J].纳米科技,2005,2(5):3-7. 被引量:7
  • 3Smith D E,Tans S J,Smith S B,et al..The bacteriophage straight phi 29 portal motor can package DNA against a large internal force[J].Nature,2001,413(6857):748-752.
  • 4Li H B,Oberhauser A F,Redick S D,et al..Multiple conformations of PEVK proteins detected by single- molecule techniques[J].Proceedings of the National Academy of Sciences,2001,98(19):10682-10686.
  • 5Cervantes N A G,Medina B G.Robust deposition of lambda DNA on mica for imaging by AFM in air[J].Scanning,2014,36(6):561-569.
  • 6Hertz H M.Standing- wave acoustic trap for nonintrusive positioning of microparticles[J].Journal of Applied Physics,1995,78(8):4845-4849.
  • 7Kozuka T,Yasui K,Tuziuti T,et al..Acoustic standing- wave field for manipulation in air[J].Japanese Journal of Applied Physics,2008,47(5):4336-4338.
  • 8Ashkin A,Dziedzic J M,Yamane T.Optical trapping and manipulation of single cells using infrared- laser beams[J].Nature,1987,330(6150):769-771.
  • 9Curtis J E,Koss B A,Grier D G.Dynamic holographic optical tweezers[J].Optics Communications,2002,207(1-6):169-175.
  • 10Yan Jie,Skoko D,Marko J F.Near-field-magnetic-tweezer manipulation of single DNA molecules[J].Physical Review E,2004,70(1):011905.

引证文献1

二级引证文献1

石河子大学学报(自然科学版)
2014年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部