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LTC: a novel algorithm to improve the efficiency of contig assembly for physical mapping in complex genomes

机译：LTC：提高复杂基因组物理作图的重叠群装配效率的新算法

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摘要

BackgroundPhysical maps are the substrate of genome sequencing and map-based cloning and their construction relies on the accurate assembly of BAC clones into large contigs that are then anchored to genetic maps with molecular markers. High Information Content Fingerprinting has become the method of choice for large and repetitive genomes such as those of maize, barley, and wheat. However, the high level of repeated DNA present in these genomes requires the application of very stringent criteria to ensure a reliable assembly with the FingerPrinted Contig (FPC) software, which often results in short contig lengths (of 3-5 clones before merging) as well as an unreliable assembly in some difficult regions. Difficulties can originate from a non-linear topological structure of clone overlaps, low power of clone ordering algorithms, and the absence of tools to identify sources of gaps in Minimal Tiling Paths (MTPs).

机译：背景技术物理图谱是基因组测序和基于图谱的克隆的基础，它们的构建依赖于BAC克隆正确组装成大重叠群，然后用分子标记将其锚定到遗传图谱上。高信息含量指纹已成为大型重复性基因组（如玉米，大麦和小麦等）的首选方法。但是，这些基因组中存在的高水平重复DNA要求应用非常严格的标准，以确保与Fingerprinted Contig（FPC）软件进行可靠组装，这通常会导致短重叠群长度（合并前3-5个克隆），因为以及在某些困难地区的不可靠装配。困难可能源于克隆重叠的非线性拓扑结构，克隆排序算法的功能低下以及缺少用于识别最小切片路径（MTP）中间隙源的工具。

著录项

期刊名称 BMC Bioinformatics
作者
Zeev Frenkel; Etienne Paux; David Mester; Catherine Feuillet; Abraham Korol;
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作者单位

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年(卷),期 2010(11),-1
年度 2010
页码 584
总页数 17
原文格式 PDF
正文语种
中图分类应用微生物学;生化遗传学;生化药理学;
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专利

1. LTC: a novel algorithm to improve the efficiency of contig assembly for physical mapping in complex genomes [J] . Zeev Frenkel, Etienne Paux, David Mester, BMC Bioinformatics . 2010,第1期

机译：LTC：提高复杂基因组中物理作图的重叠群装配效率的新算法
2. BioNano genome mapping of individual chromosomes supports physical mapping and sequence assembly in complex plant genomes [J] . Paul Visendi, Saki Chan, Marie Kubaláková, Plant Biotechnology Journal . 2016,第7期

机译：单个染色体的BioNano基因组图谱支持复杂植物基因组中的物理图谱和序列装配
3. BioNano genome mapping of individual chromosomes supports physical mapping and sequence assembly in complex plant genomes [J] . Stankova Helena, Hastie Alex R., Chan Saki, Plant Biotechnology Journal . 2016,第7期

机译：单个染色体的Bionano基因组映射支持复杂植物基因组中的物理映射和序列组装
4. Contig Graph Tool: a graphical interface for contig physical map assembly [C] . Pecherer, R.M. . 1993

机译：Contig图形工具：用于contig物理地图装配的图形界面
5. The Minimalistic Approach of Plasmid Genomes and Identification of Plasmid Contigs From Within Bacterial Assemblies. [D] . Sathe, Shashank Vidyadhar. 2015

机译：质粒基因组的简约方法和细菌装配体中质粒重叠群的鉴定。
6. BioNano genome mapping of individual chromosomes supports physical mapping and sequence assembly in complex plant genomes [O] . Helena Staňková, Alex R. Hastie, Saki Chan, -1

机译：单个染色体的BioNano基因组图谱支持复杂植物基因组中的物理图谱和序列装配
7. LTC: a novel algorithm to improve the efficiency of contig assembly for physical mapping in complex genomes [O] . Zeev Frenkel, Etienne Paux, David Mester, 2010

机译：LTC：提高复杂基因组物理作图的重叠群装配效率的新算法
8. Algorithm for genome contig assembly. Final report [R] . 1995

机译：基因组重叠群装配算法。总结报告

LTC: a novel algorithm to improve the efficiency of contig assembly for physical mapping in complex genomes

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