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专门的piRNA通路在果蝇卵巢的生殖细胞和体细胞组织中发挥作用。

Specialized piRNA pathways act in germline and somatic tissues of the Drosophila ovary.

作者信息

Malone Colin D, Brennecke Julius, Dus Monica, Stark Alexander, McCombie W Richard, Sachidanandam Ravi, Hannon Gregory J

机构信息

Watson School of Biological Sciences, Cold Spring Harbor, NY 11724, USA.

出版信息

Cell. 2009 May 1;137(3):522-35. doi: 10.1016/j.cell.2009.03.040. Epub 2009 Apr 23.

DOI:10.1016/j.cell.2009.03.040
PMID:19395010
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2882632/
Abstract

In Drosophila gonads, Piwi proteins and associated piRNAs collaborate with additional factors to form a small RNA-based immune system that silences mobile elements. Here, we analyzed nine Drosophila piRNA pathway mutants for their impacts on both small RNA populations and the subcellular localization patterns of Piwi proteins. We find that distinct piRNA pathways with differing components function in ovarian germ and somatic cells. In the soma, Piwi acts singularly with the conserved flamenco piRNA cluster to enforce silencing of retroviral elements that may propagate by infecting neighboring germ cells. In the germline, silencing programs encoded within piRNA clusters are optimized via a slicer-dependent amplification loop to suppress a broad spectrum of elements. The classes of transposons targeted by germline and somatic piRNA clusters, though not the precise elements, are conserved among Drosophilids, demonstrating that the architecture of piRNA clusters has coevolved with the transposons that they are tasked to control.

摘要

在果蝇性腺中,Piwi蛋白和相关的piRNA与其他因子协作,形成一个基于小RNA的免疫系统,使可移动元件沉默。在此,我们分析了九个果蝇piRNA通路突变体对小RNA群体以及Piwi蛋白亚细胞定位模式的影响。我们发现,具有不同组分的不同piRNA通路在卵巢生殖细胞和体细胞中发挥作用。在体细胞中,Piwi单独与保守的弗拉门戈piRNA簇共同作用,以加强对可能通过感染邻近生殖细胞而传播的逆转录病毒元件的沉默。在生殖系中,piRNA簇内编码的沉默程序通过一个依赖于核酸酶的扩增环进行优化,以抑制广泛的元件。生殖系和体细胞piRNA簇靶向的转座子类,尽管不是精确的元件,但在果蝇类中是保守的,这表明piRNA簇的结构与其负责控制的转座子共同进化。

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