使用微流控拉伸和荧光位点特异性标签的单分子检测进行DNA图谱绘制。

DNA mapping using microfluidic stretching and single-molecule detection of fluorescent site-specific tags.

作者信息

Chan Eugene Y, Goncalves Nuno M, Haeusler Rebecca A, Hatch Amie J, Larson Jonathan W, Maletta Anthony M, Yantz Gregory R, Carstea Eugene D, Fuchs Martin, Wong Gordon G, Gullans Steven R, Gilmanshin Rudolf

机构信息

U.S. Genomics, Inc., Woburn, Massachusetts 01801, USA.

出版信息

Genome Res. 2004 Jun;14(6):1137-46. doi: 10.1101/gr.1635204.

DOI:10.1101/gr.1635204

PMID:15173119

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC419792/

Abstract

We have developed a rapid molecular mapping technology--Direct Linear Analysis (DLA)--on the basis of the analysis of individual DNA molecules bound with sequence-specific fluorescent tags. The apparatus includes a microfluidic device for stretching DNA molecules in elongational flow that is coupled to a multicolor detection system capable of single-fluorophore sensitivity. Double-stranded DNA molecules were tagged at sequence-specific motif sites with fluorescent bisPNA (Peptide Nucleic Acid) tags. The DNA molecules were then stretched in the microfluidic device and driven in a flow stream past confocal fluorescence detectors. DLA provided the spatial locations of multiple specific sequence motifs along individual DNA molecules, and thousands of individual molecules could be analyzed per minute. We validated this technology using the 48.5 kb lambda phage genome with different 8-base and 7-base sequence motif tags. The distance between the sequence motifs was determined with an accuracy of +/-0.8 kb, and these tags could be localized on the DNA with an accuracy of +/-2 kb. Thus, DLA is a rapid mapping technology, suitable for analysis of long DNA molecules.

摘要

我们在对与序列特异性荧光标签结合的单个DNA分子进行分析的基础上，开发了一种快速分子图谱技术——直接线性分析（DLA）。该仪器包括一个用于在拉伸流中拉伸DNA分子的微流控装置，该装置与具有单荧光团灵敏度的多色检测系统相连。双链DNA分子在序列特异性基序位点用荧光双肽核酸（bisPNA）标签进行标记。然后将DNA分子在微流控装置中拉伸，并在流动流中驱动其经过共聚焦荧光检测器。DLA提供了沿着单个DNA分子的多个特定序列基序的空间位置，每分钟可分析数千个单个分子。我们使用具有不同8碱基和7碱基序列基序标签的48.5 kb λ噬菌体基因组对该技术进行了验证。序列基序之间的距离测定精度为±0.8 kb，这些标签在DNA上的定位精度为±2 kb。因此，DLA是一种快速图谱技术，适用于长DNA分子的分析。

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使用微流控拉伸和荧光位点特异性标签的单分子检测进行DNA图谱绘制。

DNA mapping using microfluidic stretching and single-molecule detection of fluorescent site-specific tags.

作者信息

机构信息

U.S. Genomics, Inc., Woburn, Massachusetts 01801, USA.

出版信息

Genome Res. 2004 Jun;14(6):1137-46. doi: 10.1101/gr.1635204.

DOI:10.1101/gr.1635204

PMID:15173119

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC419792/

Abstract

摘要

使用微流控拉伸和荧光位点特异性标签的单分子检测进行DNA图谱绘制。

DNA mapping using microfluidic stretching and single-molecule detection of fluorescent site-specific tags.

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使用微流控拉伸和荧光位点特异性标签的单分子检测进行DNA图谱绘制。

DNA mapping using microfluidic stretching and single-molecule detection of fluorescent site-specific tags.

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