Alu expression profiles as a novel RNA signature in biology and disease

RNA & disease (Houston, Tex.) Pub Date : 2015-04-07 DOI:10.14800/RD.735
D. Carnevali, G. Dieci
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引用次数: 3

Abstract

SINE retrotransposons of the Alu subfamily are the most numerous active mobile DNA elements in the human genome. Alu transcription by RNA polymerase III is subjected to tight epigenetic silencing, but activated in response to viral infection, genotoxic anticancer agents and other stimuli, through uncharacterized epigenetic switches interspersed throughout the genome. The elucidation of Alu RNA roles in cell biology and pathology has long been hampered by difficulties in their profiling at single-locus resolution, due to their repetitive nature. We recently found how to overcome this limitation by computational screening of RNA-seq data, thus opening the way to Alu transcriptome profiling as a novel tool to explore disease-related epigenome alterations.
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Alu表达谱在生物学和疾病中作为一种新的RNA特征
Alu亚家族的SINE反转录转座子是人类基因组中数量最多的活性移动DNA元件。RNA聚合酶III的Alu转录受到严格的表观遗传沉默,但在响应病毒感染、基因毒性抗癌药物和其他刺激时,通过散布在整个基因组中的未表征的表观遗传开关被激活。由于其重复性,Alu RNA在细胞生物学和病理学中的作用的阐明长期以来一直受到单位点分辨率分析的困难的阻碍。我们最近发现了如何通过RNA-seq数据的计算筛选来克服这一限制,从而为Alu转录组分析作为一种探索疾病相关表观基因组改变的新工具开辟了道路。
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RNA & disease (Houston, Tex.)
RNA & disease (Houston, Tex.)
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