神秘的非转座子 PIWI-interacting RNAs。

IF 3.2 2区生物学 Q2 EVOLUTIONARY BIOLOGY

Genome Biology and Evolution Pub Date : 2024-10-09 DOI:10.1093/gbe/evae162

Ming-Min Xu, Xin Zhiguo Li

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引用次数: 0

摘要

PIWI-interacting RNAs（piRNAs）是一类小 RNAs，因其在依赖测序的靶向和抑制转座元件（TEs）方面的作用而闻名。然而，大多数哺乳动物的 piRNA（称为 pachytene piRNA）都没有可识别的靶标，这给它们的功能意义蒙上了一层神秘的面纱。我们最近证明，pachytene piRNAs 在沉默幼嫩和活跃转座的 TEs 方面发挥着特定的基本作用。然而，只有 1% 的 pachytene piRNAs 以活性 TEs 为靶标。由相同基因座共同产生的大量非 TE piRNA 的生物学意义仍不清楚。在此，我们全面总结了非 TE piRNAs 的潜在作用，并由此提出，这些非 TE piRNAs 要么能加强 TE piRNAs 的作用，要么能为宿主基因组提供一种预先存在的机制，以抑制未来新型 TEs 的潜在入侵。

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Enigmatic Pachytene PIWI-Interacting RNAs.

PIWI-interacting RNAs (piRNAs), a class of small RNAs, are renowned for their roles in sequencing-dependent targeting and suppressing transposable elements (TEs). Nevertheless, a majority of mammalian piRNAs, expressing at pachytene stage of meiosis, known as pachytene piRNAs, are devoid of discernible targets, casting a veil of enigma over their functional significance. Overturning the notion that this unusual class of piRNAs functions beyond TE silencing, we recently demonstrated that pachytene piRNAs play an essential and conserved role in silencing young and actively transposing TEs across amniotes. However, only 1% of pachytene piRNAs target active TEs. The biological significance of the abundant non-TE piRNAs, coproduced from the same precursors as TE piRNAs, remains unclear. Here, we provide a comprehensive summary of the potential roles of non-TE piRNAs, and thus propose that these non-TE piRNAs either bolster the action of TE piRNAs or provide the host genome a preexisting mechanism to suppress the potential invasion of novel TEs in the future.

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来源期刊

Genome Biology and Evolution EVOLUTIONARY BIOLOGY-GENETICS & HEREDITY

CiteScore

5.80

自引率

6.10%

发文量

169

审稿时长

1 months

期刊介绍： About the journal Genome Biology and Evolution (GBE) publishes leading original research at the interface between evolutionary biology and genomics. Papers considered for publication report novel evolutionary findings that concern natural genome diversity, population genomics, the structure, function, organisation and expression of genomes, comparative genomics, proteomics, and environmental genomic interactions. Major evolutionary insights from the fields of computational biology, structural biology, developmental biology, and cell biology are also considered, as are theoretical advances in the field of genome evolution. GBE’s scope embraces genome-wide evolutionary investigations at all taxonomic levels and for all forms of life — within populations or across domains. Its aims are to further the understanding of genomes in their evolutionary context and further the understanding of evolution from a genome-wide perspective.