RetroSeeker揭示了一大批新型逆转录转座子的特征、表达和进化

Junhong Huang, Zhirong Chen, Bin Li, Lianghu Qu, Jianhua Yang
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引用次数: 0

摘要

反转录转座子在大多数动物中非常普遍,占人类基因组的35%以上。然而,反转录转座子的流行、生物发生机制和功能在很大程度上仍然未知。在这里,我们开发了retroSeeker,这是一种新的计算软件,可以从基因组的成对比对中识别新的逆转录转座子,并解码它们的生物发生、表达、进化和潜在功能。我们发现大多数新的逆转录转座子表现出特定的L1内切酶切割基序,其中一些基序精确地位于插入位点上游的10个核苷酸。我们发现大量的候选功能基因可能通过反转录转位机制产生。重要的是,我们发现了与组蛋白基因、线粒体基因和拱顶rna相关的先前未被表征的反转录转座子类别。此外,我们阐明了逆转录转座子的组织特异性表达,并证明了它们在各种癌症类型中的普遍表达。我们还揭示了反转录转座子的复杂进化模式,并确定了许多物种特异性的反转录转座子事件。总之,我们的研究结果为发现新的反转录转座子类别和阐明它们在任何物种中的新特征建立了一个范例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
RetroSeeker reveals the characteristics, expression, and evolution of a large set of novel retrotransposons
Abstract Retrotransposons are highly prevalent in most animals and account for more than 35% of the human genome. However, the prevalence, biogenesis mechanism and function of retrotransposons remain largely unknown. Here, we developed retroSeeker, a novel computational software that identifies novel retrotransposons from pairwise alignments of genomes and decodes their biogenesis, expression, evolution and potential functions. We discovered that the majority of new retrotransposons exhibit a specific L1 endonuclease cleavage motif, with some motifs precisely located ten nucleotides upstream of the insertion site. We identified that a large number of candidate functional genes might be generated through a retrotransposition mechanism. Importantly, we uncovered previously uncharacterized classes of retrotransposons related to histone genes, mitochondrial genes and vault RNAs. Moreover, we elucidated the tissue-specific expression of retrotransposons and demonstrated their ubiquitous expression in various cancer types. We also revealed the complex evolutionary patterns of retrotransposons and identified numerous species-specific retrotransposition events. Taken together, our findings establish a paradigm for discovering novel classes of retrotransposons and elucidating their new characteristics in any species.
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