高通量筛选活跃的人类转座元件。

A high throughput screen for active human transposable elements.

机构信息

Wellcome Trust Centre for Human Genetics, Oxford, UK.

National Institute for Health Research Comprehensive Biomedical Research Centre, Oxford, UK.

出版信息

BMC Genomics. 2018 Feb 1;19(1):115. doi: 10.1186/s12864-018-4485-4.

DOI:10.1186/s12864-018-4485-4

PMID:29390960

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5796560/

Abstract

BACKGROUND

Transposable elements (TEs) are mobile genetic sequences that randomly propagate within their host's genome. This mobility has the potential to affect gene transcription and cause disease. However, TEs are technically challenging to identify, which complicates efforts to assess the impact of TE insertions on disease. Here we present a targeted sequencing protocol and computational pipeline to identify polymorphic and novel TE insertions using next-generation sequencing: TE-NGS. The method simultaneously targets the three subfamilies that are responsible for the majority of recent TE activity (L1HS, AluYa5/8, and AluYb8/9) thereby obviating the need for multiple experiments and reducing the amount of input material required.

RESULTS

Here we describe the laboratory protocol and detection algorithm, and a benchmark experiment for the reference genome NA12878. We demonstrate a substantial enrichment for on-target fragments, and high sensitivity and precision to both reference and NA12878-specific insertions. We report 17 previously unreported loci for this individual which are supported by orthogonal long-read evidence, and we identify 1470 polymorphic and novel TEs in 12 additional samples that were previously undocumented in databases of insertion polymorphisms.

CONCLUSIONS

We anticipate that future applications of TE-NGS alongside exome sequencing of patients with sporadic disease will reduce the number of unresolved cases, and improve estimates of the contribution of TEs to human genetic disease.

摘要

背景

转座元件（TEs）是可在宿主基因组内随机传播的移动遗传序列。这种移动性有可能影响基因转录并导致疾病。然而，TEs 的识别技术具有挑战性，这使得评估 TE 插入对疾病的影响变得复杂。在这里，我们提出了一种靶向测序方案和计算流程，使用下一代测序来识别多态性和新型 TE 插入：TE-NGS。该方法同时针对负责大多数近期 TE 活性的三个亚家族（L1HS、AluYa5/8 和 AluYb8/9）进行靶向，从而避免了多次实验的需要，并减少了所需的输入材料量。

结果

在这里，我们描述了实验室方案和检测算法，并对参考基因组 NA12878 进行了基准实验。我们证明了对目标片段的大量富集，以及对参考和 NA12878 特异性插入的高灵敏度和精度。我们报告了该个体的 17 个先前未报道的基因座，这些基因座得到了正交长读证据的支持，并且我们在 12 个其他样本中鉴定了 1470 个多态性和新型 TE，这些样本在插入多态性数据库中以前没有记录。

结论

我们预计，TE-NGS 与散发性疾病患者的外显子组测序的未来应用将减少未解决病例的数量，并提高 TEs 对人类遗传疾病的贡献的估计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9db/5796560/dc4c0d7dec1d/12864_2018_4485_Fig1_HTML.jpg

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高通量筛选活跃的人类转座元件。

A high throughput screen for active human transposable elements.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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