Genomics via optical mapping. III: Contiging genomic DNA.

Proceedings. International Conference on Intelligent Systems for Molecular Biology Pub Date : 1999-01-01
T Anantharaman, B Mishra, D Schwartz
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引用次数: 0

Abstract

In this paper, we describe our algorithmic approach to constructing an alignment of (contiging) a set of restriction maps created from the images of individual genomic (uncloned) DNA molecules digested by restriction enzymes. Generally, these DNA segments are sized in the range of 1-4 Mb. The goal is to devise contiging algorithms capable of producing high-quality composite maps rapidly and in a scaleable manner. The resulting software is a key component of our physical mapping automation tools and has been used to create complete maps of various microorganisms (E. coli, P. falciparum and D. radiodurans). Experimental results match known sequence data.

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通过光学图谱的基因组学。三:基因组DNA序列。
在本文中,我们描述了我们的算法方法来构建一组限制性内切酶消化的单个基因组(未克隆)DNA分子图像创建的限制性内切图的比对(conticing)。一般来说,这些DNA片段的大小在1-4 Mb的范围内。目标是设计出能够以可扩展的方式快速生成高质量合成地图的配置算法。由此产生的软件是我们物理制图自动化工具的关键组成部分,并已用于创建各种微生物(大肠杆菌,恶性疟原虫和耐辐射细菌)的完整地图。实验结果与已知序列数据吻合。
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Proceedings. International Conference on Intelligent Systems for Molecular Biology
Proceedings. International Conference on Intelligent Systems for Molecular Biology
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