人类基因组内 Alu 重复序列的发现和特征分析。

Alu repeat discovery and characterization within human genomes.

机构信息

School of Computing Science, Simon Fraser University, Burnaby, British Columbia V5A 1S6, Canada.

出版信息

Genome Res. 2011 Jun;21(6):840-9. doi: 10.1101/gr.115956.110. Epub 2010 Dec 3.

DOI:10.1101/gr.115956.110

PMID:21131385

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3106317/

Abstract

Human genomes are now being rapidly sequenced, but not all forms of genetic variation are routinely characterized. In this study, we focus on Alu retrotransposition events and seek to characterize differences in the pattern of mobile insertion between individuals based on the analysis of eight human genomes sequenced using next-generation sequencing. Applying a rapid read-pair analysis algorithm, we discover 4342 Alu insertions not found in the human reference genome and show that 98% of a selected subset (63/64) experimentally validate. Of these new insertions, 89% correspond to AluY elements, suggesting that they arose by retrotransposition. Eighty percent of the Alu insertions have not been previously reported and more novel events were detected in Africans when compared with non-African samples (76% vs. 69%). Using these data, we develop an experimental and computational screen to identify ancestry informative Alu retrotransposition events among different human populations.

摘要

人类基因组正迅速被测序，但并非所有形式的遗传变异都能被常规地描述。在本研究中，我们关注 Alu 逆转录转座事件，并试图通过分析使用下一代测序技术测序的 8 个人类基因组，来描述个体间移动插入模式的差异。应用一种快速读对分析算法，我们发现了 4342 个人类参考基因组中未发现的 Alu 插入，并表明所选子集（63/64）的 98%经实验验证。在这些新的插入中，89%对应于 AluY 元件，表明它们是通过逆转录转座产生的。80%的 Alu 插入以前没有报道过，与非非洲样本相比，在非洲人中检测到更多的新事件（76%对 69%）。利用这些数据，我们开发了一种实验和计算筛选方法，以鉴定不同人类群体中具有祖先信息的 Alu 逆转录转座事件。

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