人类基因组中源自转座元件的DNA酶I超敏位点

Transposable element derived DNaseI-hypersensitive sites in the human genome.

作者信息

Mariño-Ramírez Leonardo, Jordan I King

机构信息

National Center for Biotechnology Information, National Institutes of Health, Bethesda, MD 20894, USA.

出版信息

Biol Direct. 2006 Jul 20;1:20. doi: 10.1186/1745-6150-1-20.

DOI:10.1186/1745-6150-1-20

PMID:16857058

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1538576/

Abstract

BACKGROUND

Transposable elements (TEs) are abundant genomic sequences that have been found to contribute to genome evolution in unexpected ways. Here, we characterize the evolutionary and functional characteristics of TE-derived human genome regulatory sequences uncovered by the high throughput mapping of DNaseI-hypersensitive (HS) sites.

RESULTS

Human genome TEs were found to contribute substantially to HS regulatory sequences characterized in CD4+ T cells: 23% of HS sites contain TE-derived sequences. While HS sites are far more evolutionarily conserved than non HS sites in the human genome, consistent with their functional importance, TE-derived HS sites are highly divergent. Nevertheless, TE-derived HS sites were shown to be functionally relevant in terms of driving gene expression in CD4+ T cells. Genes involved in immune response are statistically over-represented among genes with TE-derived HS sites. A number of genes with both TE-derived HS sites and immune tissue related expression patterns were found to encode proteins involved in immune response such as T cell specific receptor antigens and secreted cytokines as well as proteins with clinical relevance to HIV and cancer. Genes with TE-derived HS sites have higher average levels of sequence and expression divergence between human and mouse orthologs compared to genes with non TE-derived HS sites.

CONCLUSION

The results reported here support the notion that TEs provide a specific genome-wide mechanism for generating functionally relevant gene regulatory divergence between evolutionary lineages.

REVIEWERS

This article was reviewed by Wolfgang J. Miller (nominated by Jerzy Jurka), Itai Yanai and Mikhail S.Gelfand.

摘要

背景

转座元件（TEs）是丰富的基因组序列，已发现它们以意想不到的方式促进基因组进化。在此，我们对通过DNaseI超敏（HS）位点的高通量图谱揭示的TE衍生的人类基因组调控序列的进化和功能特征进行了表征。

结果

发现人类基因组TEs对CD4 + T细胞中表征的HS调控序列有很大贡献：23%的HS位点包含TE衍生序列。虽然HS位点在人类基因组中比非HS位点在进化上保守得多，这与其功能重要性一致，但TE衍生的HS位点高度发散。然而，TE衍生的HS位点在驱动CD4 + T细胞中的基因表达方面显示出功能相关性。在具有TE衍生HS位点的基因中，参与免疫反应的基因在统计学上过度富集。发现许多具有TE衍生HS位点和免疫组织相关表达模式的基因编码参与免疫反应的蛋白质，如T细胞特异性受体抗原和分泌的细胞因子，以及与HIV和癌症具有临床相关性的蛋白质。与具有非TE衍生HS位点的基因相比，具有TE衍生HS位点的基因在人类和小鼠直系同源基因之间具有更高的序列和表达发散平均水平。

结论

此处报道的结果支持以下观点，即TEs提供了一种特定的全基因组机制，用于在进化谱系之间产生功能相关的基因调控差异。

评审人

本文由Wolfgang J. Miller（由Jerzy Jurka提名）、Itai Yanai和Mikhail S. Gelfand评审。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e76/1538576/ee7ac9620df8/1745-6150-1-20-1.jpg

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人类基因组中源自转座元件的DNA酶I超敏位点

Transposable element derived DNaseI-hypersensitive sites in the human genome.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

REVIEWERS

背景

结果

结论

评审人

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