Department of Biology, University of Copenhagen, DK-2200 Copenhagen N, Denmark.
Plant Cell. 2013 Jan;25(1):22-37. doi: 10.1105/tpc.112.105643. Epub 2013 Jan 9.
RNA silencing refers to a collection of gene regulatory mechanisms that use small RNAs for sequence specific repression. These mechanisms rely on ARGONAUTE (AGO) proteins that directly bind small RNAs and thereby constitute the central component of the RNA-induced silencing complex (RISC). AGO protein function has been probed extensively by mutational analyses, particularly in plants where large allelic series of several AGO proteins have been isolated. Structures of entire human and yeast AGO proteins have only very recently been obtained, and they allow more precise analyses of functional consequences of mutations obtained by forward genetics. To a large extent, these analyses support current models of regions of particular functional importance of AGO proteins. Interestingly, they also identify previously unrecognized parts of AGO proteins with profound structural and functional importance and provide the first hints at structural elements that have important functions specific to individual AGO family members. A particularly important outcome of the analysis concerns the evidence for existence of Gly-Trp (GW) repeat interactors of AGO proteins acting in the plant microRNA pathway. The parallel analysis of AGO structures and plant AGO mutations also suggests that such interactions with GW proteins may be a determinant of whether an endonucleolytically competent RISC is formed.
RNA 沉默是指一组利用小 RNA 进行序列特异性抑制的基因调控机制。这些机制依赖于 ARGONAUTE(AGO)蛋白,AGO 蛋白直接结合小 RNA,从而构成 RNA 诱导沉默复合物(RISC)的核心成分。通过突变分析,特别是在植物中,对 AGO 蛋白的功能进行了广泛的研究,在植物中分离了几个 AGO 蛋白的大型等位基因系列。最近才获得了完整的人类和酵母 AGO 蛋白的结构,这使得对通过正向遗传学获得的突变的功能后果进行更精确的分析成为可能。在很大程度上,这些分析支持了 AGO 蛋白特定功能区域的现有模型。有趣的是,它们还确定了以前未被识别的 AGO 蛋白的部分,这些部分具有深远的结构和功能重要性,并为特定于个别 AGO 家族成员的具有重要功能的结构元素提供了第一个线索。分析的一个特别重要的结果是,存在 AGO 蛋白与植物 microRNA 途径中的 Gly-Trp(GW)重复相互作用因子的证据。对 AGO 结构和植物 AGO 突变的平行分析还表明,与 GW 蛋白的这种相互作用可能是决定是否形成内切核酸酶活性的 RISC 的决定因素。