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Mingmin Zhao David San León Ma. Otilia Delgadillo Juan Antonio García Carmen Simón‐Mateo 《The Plant journal : for cell and molecular biology》2014,79(3):440-452
We used bisulfite sequencing to study the methylation of a viral transgene whose expression was silenced upon plum pox virus infection of the transgenic plant and its subsequent recovery as a consequence of so‐called virus‐induced gene silencing (VIGS). VIGS was associated with a general increase in the accumulation of small RNAs corresponding to the coding region of the viral transgene. After VIGS, the transgene promoter was not methylated and the coding region showed uneven methylation, with the 5′ end being mostly unmethylated in the recovered tissue or mainly methylated at CG sites in regenerated silenced plants. The methylation increased towards the 3′ end, which showed dense methylation in all three contexts (CG, CHG and CHH). This methylation pattern and the corresponding silenced status were maintained after plant regeneration from recovered silenced tissue and did not spread into the promoter region, but were not inherited in the sexual offspring. Instead, a new pattern of methylation was observed in the progeny plants consisting of disappearance of the CHH methylation, similar CHG methylation at the 3′ end, and an overall increase in CG methylation in the 5′ end. The latter epigenetic state was inherited over several generations and did not correlate with transgene silencing and hence virus resistance. These results suggest that the widespread CG methylation pattern found in body gene bodies located in euchromatic regions of plant genomes may reflect an older silencing event, and most likely these genes are no longer silenced. 相似文献
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Asif Khan Anna Garbelli Serena Grossi Assa Florentin Giorgia Batelli Tania Acuna Gaston Zolla Yuval Kaye Laju K. Paul Jian‐Kang Zhu Giovanni Maga Gideon Grafi Simon Barak 《The Plant journal : for cell and molecular biology》2014,79(1):28-43
DEAD‐box RNA helicases are involved in many aspects of RNA metabolism and in diverse biological processes in plants. Arabidopsis thaliana mutants of two DEAD‐box RNA helicases, STRESS RESPONSE SUPPRESSOR1 (STRS1) and STRS2 were previously shown to exhibit tolerance to abiotic stresses and up‐regulated stress‐responsive gene expression. Here, we show that Arabidopsis STRS‐overexpressing lines displayed a less tolerant phenotype and reduced expression of stress‐induced genes confirming the STRSs as attenuators of Arabidopsis stress responses. GFP–STRS fusion proteins exhibited localization to the nucleolus, nucleoplasm and chromocenters and exhibited relocalization in response to abscisic acid (ABA) treatment and various stresses. This relocalization was reversed when stress treatments were removed. The STRS proteins displayed mis‐localization in specific gene‐silencing mutants and exhibited RNA‐dependent ATPase and RNA‐unwinding activities. In particular, STRS2 showed mis‐localization in three out of four mutants of the RNA‐directed DNA methylation (RdDM) pathway while STRS1 was mis‐localized in the hd2c mutant that is defective in histone deacetylase activity. Furthermore, heterochromatic RdDM target loci displayed reduced DNA methylation and increased expression in the strs mutants. Taken together, our findings suggest that the STRS proteins are involved in epigenetic silencing of gene expression to bring about suppression of the Arabidopsis stress response. 相似文献
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《Molecular cell》2020,77(2):310-323.e7
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Gou D Weng T Wang Y Wang Z Zhang H Gao L Chen Z Wang P Liu L 《The journal of gene medicine》2007,9(9):751-763
The application of RNA interference (RNAi) as a research and therapeutic tool depends on its ability to silence genes in a sequence-specific manner. Recent studies have reported that the effective knockdown of genes can be achieved by multiple short hairpin RNAs (shRNAs) in a single vector. Moreover, this approach can depress several genes simultaneously. However, current methods for the construction of multiple shRNA vectors often suffer from vector instability and are time-consuming. Here, we describe a simple, quick and low-cost approach to construct a single vector expressing four shRNA sequences driven by four different promoters. Using this vector, we were able to improve the gene silencing efficiency and make it possible to silence four different genes simultaneously, further expanding the application spectrum of RNAi, both in functional studies and therapeutic strategies. 相似文献
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非编码RNA与基因表达调控 总被引:1,自引:0,他引:1
近年来,随着对基因组的深入研究,发现真核生物中存在许多形态和功能各异的非编码RNA分子,这类RNA分子并不表达蛋白质,但它们在基因转录水平、转录后水平及翻译水平起了重要的调控作用。具有调控作用的RNA分子种类非常丰富,如长链非编码RNA(long non-coding RNA,lncRNA)、miRNA、PIWI相互作用RNA(PIWI-interacting RNA,piRNA)、内源性小干扰RNA(endogenous small interfering RNA,endo-siRNA)、竞争性内源RNA(competitive endogenous RNA,ceRNA)等,它们使基因表达过程更为丰富、严谨和有序。本文综述几类典型的非编码RNA对基因表达的调节作用,以助于理解细胞中RNA分子调节网络的功能和机制。 相似文献
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