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RNA干扰与染色质沉默——生物体内精密的网络调控机制 总被引:2,自引:0,他引:2
基因表达受不同层次的调控.RNA干扰通过产生双链小RNA诱导同源mRNA序列降解,从而在转录后抑制特定基因的表达.最新的研究成果显示:RNA干扰产生的双链小RNA可通过与染色质中的重复序列DNA及组蛋白甲基化酶相互作用,引起组蛋白H3 Lys9的甲基化,进一步与异染色质形成相关蛋白结合,导致染色质沉默.综述了RNA干扰,小RNA,组蛋白修饰,染色质沉默及基因表达调控之间存在着精密的网络调控机制. 相似文献
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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 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
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RNA interference induced by siRNAs modified with 4'-thioribonucleosides in cultured mammalian cells 总被引:2,自引:0,他引:2
Short interfering RNAs (siRNAs) variously modified with 4'-thioribonucleosides against the Photinus luciferase gene were tested for their induction of the RNA interference (RNAi) activity in cultured NIH/3T3 cells. Results indicated that modifications at the sense-strand were well tolerated for RNAi activity except for full modification with 4'-thioribonucleosides. However, the activity of siRNAs modified at the antisense-strand was dependent on the position and the number of modifications with 4'-thioribonucleosides. Since modifications of siRNAs with 4'-thioribonucleosides were well tolerated in RNAi activity compared with that of 2'-O-methyl nucleosides, 4'-thioribonucleosides might be potentially useful in the development of novel and effective chemically modified siRNAs. 相似文献
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RNA干扰(RNA interference,RNAi)是一种保守的真核生物基因调控机制,它利用小的非编码RNA介导转录/转录后的基因沉默。虽然部分真菌丢失了RNAi系统,但随着对真菌RNAi机制研究的增加,越来越多的证据表明,真菌的RNAi系统不但参与维持基因组完整性,其在调节真菌生长发育、介导异染色质组装、促进着丝粒进化、调节真菌耐药性与毒力等方面也具有重要作用。本文主要对真菌中RNAi的生物学功能进行综述,以期为进一步深入研究真菌RNA干扰机制提供一定的理论与研究基础。 相似文献
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Tissue-specific RNA interference in post-implantation mouse embryos using directional electroporation and whole embryo culture 总被引:1,自引:0,他引:1
Calegari F Marzesco AM Kittler R Buchholz F Huttner WB 《Differentiation; research in biological diversity》2004,72(2-3):92-102
In mammals, embryonic development is more difficult to analyze than in non-mammalian species because this development occurs in utero. Interestingly, whole embryo culture allows the normal development of mouse post-implantation embryos for up to 2 days in vitro. One limitation of this technology has been the difficulty of performing loss-of-gene function studies in this system. RNA interference (RNAi), whereby double-stranded RNA molecules suppress the expression of complementary genes, has rapidly become a widely used tool for gene function analyses. We have combined the technologies of mouse whole embryo culture and RNAi to allow the molecular dissection of developmental processes. Here, we review the manipulation by topical injection followed by directional electroporation of endoribonuclease-prepared siRNA to demonstrate that this technology may be useful to knock down genes in a tissue- and region-specific manner in several organs of the developing mouse embryo. 相似文献
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Within the course of only the last few years, RNA interference (RNAi) has been established as a standard technology for investigation of protein function and target validation. The present review summarizes recent progress made in the application of RNAi in neurosciences with special emphasis on pain research. RNAi is a straightforward method to generate loss-of-function phenotypes for any gene of interest. In mammals, silencing is induced by small interfering RNAs (siRNAs), which have been shown to surpass traditional antisense molecules. Due to its high specificity, RNAi has the potential for subtype selective silencing of even closely related genes. One of the major challenges for in vivo investigations of RNAi remains efficient delivery of siRNA molecules to the relevant tissues and cells, particularly to the central nervous system. Various examples will be given to demonstrate that intrathecal application of siRNAs is a suitable approach to analyse the function of receptors or other proteins that are hypothesized to play an important role in pain signalling. Intensive efforts are currently ongoing to solve remaining problems such as the risk of off-target effects, the stability of siRNA molecules and their efficient delivery to the CNS. RNAi has thus demonstrated that it is an extremely valuable tool for the development of new analgesic drugs. 相似文献
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siRNA及其在哺乳动物中的应用 总被引:3,自引:0,他引:3
RNA干扰现象已经在多种生物中发现,但是在多数哺乳动物中尚未发现自然存在RNA干扰的证据。因此最初RNA干扰技术在哺乳动物细胞中的应用受到很大的限制。直到对RNA干扰作用机制有了较深入的了解以后,主要是小干扰RNA的发现使RNA干扰技术在哺乳动物中的应用得以推广。本文介绍了RNA干扰,重点描述了小干扰RNA的发现、特点、现有制备方法以及应用。 相似文献
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The large number of candidate genes identified by modern high-throughput technologies require efficient methods for generating knockout phenotypes or gene silencing in order to study gene function. RNA interference (RNAi) is an efficient method that can be used for this purpose. Effective gene silencing by RNAi depends on a number of important parameters, including the dynamics of gene expression and the RNA dose. Using mouse hepatoma cells, we detail some of the principal characteristics of RNAi as a tool for gene silencing, such as the RNA dose level, RNA complex exposure time, and the time of transfection relative to gene induction, in the context of silencing a green fluorescent protein reporter gene. Our experiments demonstrate that different levels of silencing can be attained by modulating the dose level of RNA and the time of transfection and illustrate the importance of a dynamic analysis in designing robust silencing protocols. By quantifying the kinetics of RNAi-based gene silencing, we present a model that may be used to help determine key parameters in more complex silencing experiments and explore alternative gene silencing protocols. 相似文献
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Multicellular organisms, like higher plants, need to coordinate their growth and development and to cope with environmental cues. To achieve this, various signal molecules are transported between neighboring cells and distant organs to control the fate of the recipient cells and organs. RNA silencing produces cell non-autonomous signal molecules that can move over short or long distances leading to the sequence specific silencing of a target gene in a well defined area of cells or throughout the entire plant,respectively. The nature of these signal molecules, the route of silencing spread, and the genes involved in their production, movement and reception are discussed in this review. Additionally, a short section on features of silencing spread in animal models is presented at the end of this review. 相似文献
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RNA interference and its application in bone-related diseases 总被引:1,自引:0,他引:1
Li YL Quarles LD Zhou HH Xiao ZS 《Biochemical and biophysical research communications》2007,361(4):817-821
RNA interference (RNAi) is the most exciting insight in biology in past decades, which provided new perspectives into the genome-wide surveys of gene function by targeted degradation of mRNA with the introduction of small interfering RNAs (siRNAs) or small hairpin RNAs (shRNAs) in a large variety of organisms, and turned out to be a more efficient and convenient method compared with the traditional knockout pathway. What's more, as the enhancement of its stability and improvement of its delivery vehicles, RNAi is bound to be a practical tool in determine gene function first in vitro and then in vivo. In this paper, we will focus on the recent achievements of RNAi and also depict the development of RNAi as a potentially powerful tool in studying bone-related diseases. 相似文献