DNA微操作在基因定位和限制性内切酶酶切中的应用

1997 International Symposium on Micromechanics and Human Science (Cat. No.97TH8311) Pub Date : 1997-10-05 DOI:10.1109/MHS.1997.768866

H. Yasuda, K. Hirano, Y. Matsui, Y. Matsuzawa, S. Katsura, A. Mizuno

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引用次数: 1

摘要

对单个DNA分子的精确操作将支持基因组分析，如基因作图、物理作图和染色体测序。本文介绍了单链DNA的微操作及其在基因定位中的应用。将/spl lambda/噬菌体DNA作为模型模板DNA串联，然后将其变性并与克隆的/spl lambda/-exo基因区探针DNA杂交。杂交分子末端与磁珠结合，拉长，并录像成像。我们可以看到每隔一段时间就从一个头上看到一排排闪闪发光的斑点。这与模板和探针构建的预期图像非常吻合。我们还利用温度控制技术证明了限制性内切酶活性仅在一小块被拉伸的长染色体DNA区域中定位。显微镜观察下，dna在激光聚焦斑周围约10 /spl mu/m(约10 pico l部分)被消化。这项技术可以通过处理单个DNA分子来实现快速的物理映射。

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Application of DNA micromanipulation to gene mapping and localized restriction enzyme digestion

Accurate manipulation of a single DNA molecule will support genome analysis, such as gene mapping, physical mapping and sequencing of chromosome. This paper presents the micromanipulation of single-stranded DNA and its application to gene mapping. As a model template DNA, monomeric /spl lambda/ phage DNA was tandemly ligated which was then denatured and hybridized with a cloned probe DNA of /spl lambda/-exo gene region. The hybridized molecules were terminally bound with magnetic beads, elongated, and video-imaged. We could observe the islands of gleaming spots which stood in line from a bead at regular intervals. This agree well with the expected images from the construction of the templates and probes. We have also demonstrated the localization of restriction enzyme activity only in a small area of stretched long chromosomal DNA using temperature control technique. The DNAs were digested about 10 /spl mu/m around the laser focal spot (about 10 pico liter portion) under a microscopic observation view. This technique may open up quick physical mapping by handling a single DNA molecule.

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来源期刊

1997 International Symposium on Micromechanics and Human Science (Cat. No.97TH8311)

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