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第一代塔斯马尼亚袋狸整合图谱及其在创建塔斯马尼亚袋狸第一代虚拟基因组图谱中的应用。

A first-generation integrated tammar wallaby map and its use in creating a tammar wallaby first-generation virtual genome map.

机构信息

Australian Research Council (ARC) Centre of Excellence for Kangaroo Genomics.

出版信息

BMC Genomics. 2011 Aug 19;12:422. doi: 10.1186/1471-2164-12-422.

DOI:10.1186/1471-2164-12-422
PMID:21854555
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3170641/
Abstract

BACKGROUND

The limited (2X) coverage of the tammar wallaby (Macropus eugenii) genome sequence dataset currently presents a challenge for assembly and anchoring onto chromosomes. To provide a framework for this assembly, it would be a great advantage to have a dense map of the tammar wallaby genome. However, only limited mapping data are available for this non-model species, comprising a physical map and a linkage map.

RESULTS

We combined all available tammar wallaby mapping data to create a tammar wallaby integrated map, using the Location DataBase (LDB) strategy. This first-generation integrated map combines all available information from the second-generation tammar wallaby linkage map with 148 loci, and extensive FISH mapping data for 492 loci, especially for genes likely to be located at the ends of wallaby chromosomes or at evolutionary breakpoints inferred from comparative information. For loci whose positions are only approximately known, their location in the integrated map was refined on the basis of comparative information from opossum (Monodelphis domestica) and human. Interpolation of segments from the opossum and human assemblies into the integrated map enabled the subsequent construction of a tammar wallaby first-generation virtual genome map, which comprises 14336 markers, including 13783 genes recruited from opossum and human assemblies. Both maps are freely available at http://compldb.angis.org.au.

CONCLUSIONS

The first-generation integrated map and the first-generation virtual genome map provide a backbone for the chromosome assembly of the tammar wallaby genome sequence. For example, 78% of the 10257 gene-scaffolds in the Ensembl annotation of the tammar wallaby genome sequence (including 10522 protein-coding genes) can now be given a chromosome location in the tammar wallaby virtual genome map.

摘要

背景

塔马尔袋鼠(Macropus eugenii)基因组序列数据集的覆盖范围有限(仅为 2X),这对组装和锚定到染色体提出了挑战。为了为此组装提供框架,如果能拥有塔马尔袋鼠基因组的密集图谱将是一个巨大的优势。然而,对于这个非模式物种,只有有限的映射数据可用,包括物理图谱和连锁图谱。

结果

我们结合了所有可用的塔马尔袋鼠映射数据,使用位置数据库(LDB)策略创建了塔马尔袋鼠综合图谱。这个第一代综合图谱将来自第二代塔马尔袋鼠连锁图谱的所有可用信息与 148 个基因座结合在一起,并且结合了 492 个基因座的广泛 FISH 映射数据,特别是那些可能位于袋鼠染色体末端或根据比较信息推断的进化断点的基因。对于其位置仅大致已知的基因座,根据来自袋貂(Monodelphis domestica)和人类的比较信息在综合图谱中对其位置进行了细化。将袋貂和人类组装的片段内插到综合图谱中,使得随后可以构建塔马尔袋鼠第一代虚拟基因组图谱,该图谱包含 14336 个标记,包括从袋貂和人类组装中招募的 13783 个基因。这两个图谱都可以在 http://compldb.angis.org.au 免费获得。

结论

第一代综合图谱和第一代虚拟基因组图谱为塔马尔袋鼠基因组序列的染色体组装提供了骨干。例如,现在可以在塔马尔袋鼠虚拟基因组图谱中为 Ensembl 注释的塔马尔袋鼠基因组序列(包括 10522 个蛋白质编码基因)中的 10257 个基因-支架中的 78%赋予染色体位置。

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