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RNA干涉的研究进展 总被引:34,自引:0,他引:34
生物体内导入双链RNA后会引起体内同源基因特异性的沉默,这种现象称为RNA干涉,本主要介绍RNA干涉的研究历史,作用机制和应用等方面的情况。 相似文献
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RNA interference mutant induction in vivo demonstrates the essential nature of trypanosome flagellar function during mammalian infection 下载免费PDF全文
We demonstrate that trypanosomes compromised in flagellar function are rapidly cleared from infected mice. Analysis of the PFR2 bloodstream RNA interference mutant revealed that defective cell motility occurred prior to cytokinesis failure. This validation provides a paradigm for the flagellum as a target for future assays and interventions against this human pathogen. 相似文献
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The ability of short RNAs (21-27 nucleotides) to silence genes containing homologous nucleotide sequences is related to RNA silencing. The pathways of short RNAs (siRNA and microRNA) biogenesis from their precursors, double stranded and hairpin RNAs respectively, are briefly reviewed. The functioning of specific RNA binding domains found for the first time in the proteins operating in RNA interference (RNAi) is considered. The interactions of these domains with the earlier well known RNA binding modules in RNAi proteins are described. 相似文献
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Environmental RNA interference 总被引:5,自引:0,他引:5
The discovery of RNA interference (RNAi), the process of sequence-specific gene silencing initiated by double-stranded RNA (dsRNA), has broadened our understanding of gene regulation and has revolutionized methods for genetic analysis. A remarkable property of RNAi in the nematode Caenorhabditis elegans and in some other multicellular organisms is its systemic nature: silencing signals can cross cellular boundaries and spread between cells and tissues. Furthermore, C. elegans and some other organisms can also perform environmental RNAi: sequence-specific gene silencing in response to environmentally encountered dsRNA. This phenomenon has facilitated significant technological advances in diverse fields including functional genomics and agricultural pest control. Here, we describe the characterization and current understanding of environmental RNAi and discuss its potential applications. 相似文献
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Gene silencing by RNA interference (RNAi) can be a useful reverse genetics tool in eukaryotes. However, some species appear refractory to RNAi. To study the role of the differential expression of RNAi proteins in RNAi, we isolated partial dicer-2, argonaute-2 translin, vasa intronic gene (VIG) and tudor staphylococcus/micrococcal nuclease (TSN) genes from the tobacco hornworm, Manduca sexta, a well-studied insect model which we have found to be variably sensitive to RNAi. We found that the RNAi gene, translin, was expressed at minimal levels in M. sexta tissue and that there is a specific, dose-dependent upregulation of dicer-2 and argonaute-2 expression in response to injection with dsRNA, but no upregulation of the other genes tested. Upregulation of gene expression was rapid and transient. In order to prolong the upregulation we introduced multiple doses of dsRNA, resulting in multiple peaks of dicer-2 gene expression. Our results have implications for the design of RNAi experiments and may help to explain differences in the sensitivity of eukaryotic organisms to RNAi. 相似文献
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Single-stranded RNAs interact with components of the RNA interference pathway to reduce the expression of target mRNAs. Now, Lima et?al. and Yu et?al. show that, with extensive chemical modifications, small single-stranded RNAs can robustly induce gene silencing with efficacy similar to their double-stranded counterparts. 相似文献
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Marshall WF 《PLoS computational biology》2008,4(9):e1000183
An important application of the RNA interference (RNAi) pathway is its use as a small RNA-based regulatory system commonly exploited to suppress expression of target genes to test their function in vivo. In several published experiments, RNAi has been used to inactivate components of the RNAi pathway itself, a procedure termed recursive RNAi in this report. The theoretical basis of recursive RNAi is unclear since the procedure could potentially be self-defeating, and in practice the effectiveness of recursive RNAi in published experiments is highly variable. A mathematical model for recursive RNAi was developed and used to investigate the range of conditions under which the procedure should be effective. The model predicts that the effectiveness of recursive RNAi is strongly dependent on the efficacy of RNAi at knocking down target gene expression. This efficacy is known to vary highly between different cell types, and comparison of the model predictions to published experimental data suggests that variation in RNAi efficacy may be the main cause of discrepancies between published recursive RNAi experiments in different organisms. The model suggests potential ways to optimize the effectiveness of recursive RNAi both for screening of RNAi components as well as for improved temporal control of gene expression in switch off-switch on experiments. 相似文献
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Expanding small RNA interference 总被引:105,自引:0,他引:105
Tuschl T 《Nature biotechnology》2002,20(5):446-448
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昆虫的RNA干扰 总被引:2,自引:0,他引:2
RNA干扰(RNAi)是一种强有力的分子生物学技术, 在昆虫研究中得到了较多的应用。目前, RNAi技术主要应用于昆虫功能基因和功能基因组研究, 已在多个目的19种昆虫上实现了RNAi。在昆虫上实现RNAi的方法主要有注射、浸泡、喂食、转基因和病毒介导等方法, 这些方法各有特点, 其中喂食法因其简单而最有应用前景。昆虫RNAi的系统性较为复杂, 只有部分昆虫具有RNAi的系统性。昆虫中RNAi信号传导的基因可能是sid-1, 但昆虫RNAi的系统性机理还不是很清楚。转基因植物产生的dsRNA实现了对作物的保护, 证实了RNAi技术可用于害虫控制, 为害虫控制开辟了新领域。昆虫的RNAi研究处在起步阶段, 研究昆虫RNAi的机理, 特别是RNAi在昆虫体内的系统性扩散机理, 改进实现RNAi的方法, 提高RNAi技术在昆虫研究中的应用, 有利于昆虫基因功能鉴定和害虫控制, 促进昆虫学科的发展。 相似文献
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RNA interference in cancer 总被引:11,自引:0,他引:11
In the recent years, RNA interference (RNAi) has emerged as a major regulatory mechanism in eukaryotic gene expression. The realization that changes in the levels of microRNAs are directly associated with cancer led to the recognition of a new class of tumor suppressors and oncogenes. Moreover, RNAi has been turned into a potent tool for artificially modulating gene expression through the introduction of short interfering RNAs. A plethora of individual inhibitory RNAs as well as several large collections of these reagents have been generated. The systems for stable and regulated expression of these molecules emerged as well. These tools have helped to delineate the roles of various cellular factors in oncogenesis and tumor suppression and laid the foundation for new approaches in gene discovery. Furthermore, successful inhibition of tumor cell growth by RNAi aimed at oncogenes in vitro and in vivo supports the enthusiasm for potential therapeutic applications of this technique. In this article we review the evidence of microRNA involvement in cancer, the use of short interfering RNAs in forward and reverse genetics of this disease, and as well as both the benefits and limitations of experimental RNAi. 相似文献
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RNA干扰的研究进展 总被引:8,自引:0,他引:8
RNA干扰是指外源双链RNA进入细胞后引起与其同源的mRNA特异性降解的现象,它是真核生物在长期进化中形成的一种保守的防御机制,对真核生物有着重要的意义,它参与真核生物抵御病毒侵染、阻断转座子的异常活动,调控基因表达。RNA干扰已成为一种进行基因功能分析的强有力的工具,并有望成为最有潜力的基因干预治疗方法。 相似文献
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Andersson MG Haasnoot PC Xu N Berenjian S Berkhout B Akusjärvi G 《Journal of virology》2005,79(15):9556-9565
We show that human adenovirus inhibits RNA interference (RNAi) at late times of infection by suppressing the activity of two key enzyme systems involved, Dicer and RNA-induced silencing complex (RISC). To define the mechanisms by which adenovirus blocks RNAi, we used a panel of mutant adenoviruses defective in virus-associated (VA) RNA expression. The results show that the virus-associated RNAs, VA RNAI and VA RNAII, function as suppressors of RNAi by interfering with the activity of Dicer. The VA RNAs bind Dicer and function as competitive substrates squelching Dicer. Further, we show that VA RNAI and VA RNAII are processed by Dicer, both in vitro and during a lytic infection, and that the resulting short interfering RNAs (siRNAs) are incorporated into active RISC. Dicer cleaves the terminal stem of both VA RNAI and VA RNAII. However, whereas both strands of the VA RNAI-specific siRNA are incorporated into RISC, the 3' strand of the VA RNAII-specific siRNA is selectively incorporated during a lytic infection. In summary, our work shows that adenovirus suppresses RNAi during a lytic infection and gives insight into the mechanisms of RNAi suppression by VA RNA. 相似文献
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RNA interference is a mechanism of posttranslational (at the level of mRNA) gene silencing. Sequence-specific mRNA degradation is realized with the help of small interfering RNAs produced by processing of a precursor using Dicer, an enzyme from the RNAse III family. This mechanism is now widely used in vitro on cultures of mammalian cells in order to elucidate functions of individual genes by gene specific knockdown. Analogs of small interference RNAs are intensely expressed during embryogenesis. The mechanism of RNA interference plays an especially important role in embryogenesis of invertebrates. Identification of the functions of small noncoding RNAs is essential for understanding the genetic mechanisms underlying individual developmental stages. In order to integrate small interference RNAs in mammalian cells, various systems have been developed that allow both transient (for 48 h) and stable expression in vitro. These systems are considered in the present review. 相似文献