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MIWI2 targets RNAs transcribed from piRNA‐dependent regions to drive DNA methylation in mouse prospermatogonia
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Argonaute/Piwi proteins can regulate gene expression via RNA degradation and translational regulation using small RNAs as guides. They also promote the establishment of suppressive epigenetic marks on repeat sequences in diverse organisms. In mice, the nuclear Piwi protein MIWI2 and Piwi‐interacting RNAs (piRNAs) are required for DNA methylation of retrotransposon sequences and some other sequences. However, its underlying molecular mechanisms remain unclear. Here, we show that piRNA‐dependent regions are transcribed at the stage when piRNA‐mediated DNA methylation takes place. MIWI2 specifically interacts with RNAs from these regions. In addition, we generated mice with deletion of a retrotransposon sequence either in a representative piRNA‐dependent region or in a piRNA cluster. Both deleted regions were required for the establishment of DNA methylation of the piRNA‐dependent region, indicating that piRNAs determine the target specificity of MIWI2‐mediated DNA methylation. Our results indicate that MIWI2 affects the chromatin state through base‐pairing between piRNAs and nascent RNAs, as observed in other organisms possessing small RNA‐mediated epigenetic regulation. 相似文献
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Specific but interdependent functions for Arabidopsis AGO4 and AGO6 in RNA‐directed DNA methylation
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Xiaohong Zhu Weiqiang Qian Yueh‐Ju Hou Bangshing Wang Zhaobo Lang Yang Zhao Xingang Wang Pengcheng Wang Jianping Zhou Gaimei Liang Na Liu Chunguo Wang Jian‐Kang Zhu 《The EMBO journal》2015,34(5):581-592
Argonaute (AGO) family proteins are conserved key components of small RNA‐induced silencing pathways. In the RNA‐directed DNA methylation (RdDM) pathway in Arabidopsis, AGO6 is generally considered to be redundant with AGO4. In this report, our comprehensive, genomewide analyses of AGO4‐ and AGO6‐dependent DNA methylation revealed that redundancy is unexpectedly negligible in the genetic interactions between AGO4 and AGO6. Immunofluorescence revealed that AGO4 and AGO6 differ in their subnuclear co‐localization with RNA polymerases required for RdDM. Pol II and AGO6 are absent from perinucleolar foci, where Pol V and AGO4 are co‐localized. In the nucleoplasm, AGO4 displays a strong co‐localization with Pol II, whereas AGO6 co‐localizes with Pol V. These patterns suggest that RdDM is mediated by distinct, spatially regulated combinations of AGO proteins and RNA polymerases. Consistently, Pol II physically interacts with AGO4 but not AGO6, and the levels of Pol V‐dependent scaffold RNAs and Pol V chromatin occupancy are strongly correlated with AGO6 but not AGO4. Our results suggest that AGO4 and AGO6 mainly act sequentially in mediating small RNA‐directed DNA methylation. 相似文献
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Colorectal cancer (CRC) is the third most common malignance. Although great efforts have been made to understand the pathogenesis of CRC, the underlying mechanisms are still unclear. It is now clear that more than 90% of the total genome is actively transcribed, but lack of protein‐coding potential. The massive amount of RNA can be classified as housekeeping RNAs (such as ribosomal RNAs, transfer RNAs) and regulatory RNAs (such as microRNAs [miRNAs], PIWI‐interacting RNA [piRNAs], tRNA‐derived stress‐induced RNA, tRNA‐derived small RNA [tRFs] and long non‐coding RNAs [lncRNAs]). Small non‐coding RNAs are a group of ncRNAs with the length no more than 200 nt and they have been found to exert important regulatory functions under many pathological conditions. In this review, we summarize the biogenesis and functions of regulatory sncRNAs, such as miRNAs, piRNA and tRFs, and highlight their involvements in cancers, particularly in CRC. 相似文献
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Tong Hao Yang Wang Roberto Mosca Jörg Menche Mikko Taipale Murat Taşan Changyu Fan Xinping Yang Patrick Haley Ryan R Murray Flora Mer Fana Gebreab Stanley Tam Andrew MacWilliams Amélie Dricot Patrick Reichert Balaji Santhanam Lila Ghamsari Michael A Calderwood Thomas Rolland Benoit Charloteaux Susan Lindquist Albert‐László Barabási David E Hill Patrick Aloy Michael E Cusick Yu Xia Frederick P Roth Marc Vidal 《Molecular systems biology》2016,12(4)
In cellular systems, biophysical interactions between macromolecules underlie a complex web of functional interactions. How biophysical and functional networks are coordinated, whether all biophysical interactions correspond to functional interactions, and how such biophysical‐versus‐functional network coordination is shaped by evolutionary forces are all largely unanswered questions. Here, we investigate these questions using an “inter‐interactome” approach. We systematically probed the yeast and human proteomes for interactions between proteins from these two species and functionally characterized the resulting inter‐interactome network. After a billion years of evolutionary divergence, the yeast and human proteomes are still capable of forming a biophysical network with properties that resemble those of intra‐species networks. Although substantially reduced relative to intra‐species networks, the levels of functional overlap in the yeast–human inter‐interactome network uncover significant remnants of co‐functionality widely preserved in the two proteomes beyond human–yeast homologs. Our data support evolutionary selection against biophysical interactions between proteins with little or no co‐functionality. Such non‐functional interactions, however, represent a reservoir from which nascent functional interactions may arise. 相似文献
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Ning Jiang Chao Zhang Jun‐Ying Liu Zhi‐Hong Guo Zong‐Ying Zhang Cheng‐Gui Han Ying Wang 《Plant biotechnology journal》2019,17(7):1302-1315
Many plant viruses with monopartite or bipartite genomes have been developed as efficient expression vectors of foreign recombinant proteins. Nonetheless, due to lack of multiple insertion sites in these plant viruses, it is still a big challenge to simultaneously express multiple foreign proteins in single cells. The genome of Beet necrotic yellow vein virus (BNYVV) offers an attractive system for expression of multiple foreign proteins owning to a multipartite genome composed of five positive‐stranded RNAs. Here, we have established a BNYVV full‐length infectious cDNA clone under the control of the Cauliflower mosaic virus 35S promoter. We further developed a set of BNYVV‐based vectors that permit efficient expression of four recombinant proteins, including some large proteins with lengths up to 880 amino acids in the model plant Nicotiana benthamiana and native host sugar beet plants. These vectors can be used to investigate the subcellular co‐localization of multiple proteins in leaf, root and stem tissues of systemically infected plants. Moreover, the BNYVV‐based vectors were used to deliver NbPDS guide RNAs for genome editing in transgenic plants expressing Cas9, which induced a photobleached phenotype in systemically infected leaves. Collectively, the BNYVV‐based vectors will facilitate genomic research and expression of multiple proteins, in sugar beet and related crop plants. 相似文献
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Concerted regulation of mitochondrial and nuclear non‐coding RNAs by a dual‐targeted RNase Z
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Stefan J Siira Giulia Rossetti Tara R Richman Kara Perks Judith A Ermer Irina Kuznetsova Laetitia Hughes Anne‐Marie J Shearwood Helena M Viola Livia C Hool Oliver Rackham Aleksandra Filipovska 《EMBO reports》2018,19(10)
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RNA-directed DNA methylation 总被引:1,自引:0,他引:1
DNA methylation is an important epigenetic mechanism for silencing transposons and other repetitive elements, and for stable repression of specific transgenes and endogenous genes. Plants can utilize small interfering RNAs (siRNAs) to guide de novo DNA methyltransferases for the establishment of sequence-specific DNA methylation. Genetic and biochemical approaches have identified many components involved in RNA-directed DNA methylation (RdDM). These components function in one or more of the following three aspects: biogenesis of siRNAs, production of scaffold RNAs, and the assembly of an effector complex that involves the complementary pairing between the guide siRNAs and nascent scaffold RNAs and that recruits the DNA methyltransferases. Recent studies not only unveiled new molecular players and novel interactions, but also suggested spatial and temporal segregation of the RdDM process within the nucleus. 相似文献