Wong G K, Yu J, Thayer E C, Olson M V
The Human Genome Center, Department of Medicine, University of Washington, Seattle, WA 98195, USA.
Proc Natl Acad Sci U S A. 1997 May 13;94(10):5225-30. doi: 10.1073/pnas.94.10.5225.
Multiple-complete-digest mapping is a DNA mapping technique based on complete-restriction-digest fingerprints of a set of clones that provides highly redundant coverage of the mapping target. The maps assembled from these fingerprints order both the clones and the restriction fragments. Maps are coordinated across three enzymes in the examples presented. Starting with yeast artificial chromosome contigs from the 7q31.3 and 7p14 regions of the human genome, we have produced cosmid-based maps spanning more than one million base pairs. Each yeast artificial chromosome is first subcloned into cosmids at a redundancy of x15-30. Complete-digest fragments are electrophoresed on agarose gels, poststained, and imaged on a fluorescent scanner. Aberrant clones that are not representative of the underlying genome are rejected in the map construction process. Almost every restriction fragment is ordered, allowing selection of minimal tiling paths with clone-to-clone overlaps of only a few thousand base pairs. These maps demonstrate the practicality of applying the experimental and software-based steps in multiple-complete-digest mapping to a target of significant size and complexity. We present evidence that the maps are sufficiently accurate to validate both the clones selected for sequencing and the sequence assemblies obtained once these clones have been sequenced by a "shotgun" method.
多重完全消化图谱绘制是一种基于一组克隆的完全限制性消化指纹图谱的DNA图谱绘制技术,它能为图谱绘制目标提供高度冗余的覆盖。从这些指纹图谱组装而成的图谱可对克隆和限制性片段进行排序。在给出的示例中,图谱是通过三种酶进行协同绘制的。从人类基因组7q31.3和7p14区域的酵母人工染色体重叠群开始,我们构建了基于黏粒的图谱,其跨度超过一百万个碱基对。每个酵母人工染色体首先以15至30倍的冗余度亚克隆到黏粒中。完全消化的片段在琼脂糖凝胶上进行电泳,进行后染色,并在荧光扫描仪上成像。在图谱构建过程中,会剔除那些不能代表基础基因组的异常克隆。几乎每个限制性片段都能被排序,从而能够选择仅几千个碱基对的克隆间重叠的最小拼接路径。这些图谱证明了将多重完全消化图谱绘制中基于实验和软件的步骤应用于具有显著大小和复杂性的目标的实用性。我们提供的证据表明,这些图谱足够准确,能够验证为测序选择的克隆以及一旦通过“鸟枪法”对这些克隆进行测序后获得的序列组装结果。