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1.
针对SARS冠状病毒重要蛋白的siRNA设计(英) 总被引:4,自引:0,他引:4
RNA干涉(RNA interference, RNAi)是一种特异性地导致转录后基因沉默的现象,在哺乳动物细胞中小分子干扰RNA双链体(small interfering RNA duplexes, siRNA duplexes)可以有效地诱导RNAi现象,为一些疾病的治疗开辟了新的途径.针对SARS冠状病毒(SARS coronavirus, SARS-CoV)中编码5个主要蛋白质的基因,用生物信息学的方法设计了348条候选siRNA靶标.在理论上,相应的siRNA双链体能特异地抑制SARS-CoV靶基因的表达,同时不会影响人体细胞基因的正常表达,这为进一步siRNA类药物的实验研究提供了理论基础. 相似文献
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siRNA抑制HIV-1基因表达的研究 总被引:1,自引:0,他引:1
RNA干扰(RNAinterfering,RNAi)现象是动植物体内的一种序列特异性的、转录后基因沉默的过程.在哺乳动物细胞中,19~25个核苷酸长短的双链siRNA(smallinterferingRNA)可有效地抑制基因表达.利用pBS/H1SP载体,它表达的双链RNA的转录产物可以用来抑制特异性HIV-1基因的表达.在siRNA实验中,为了比较由H1启动子转录的siRNA在细胞内的作用,使用以绿色荧光蛋白(EGFP)为报告基因的载体——pEGFP-C1质粒,在荧光显微镜下,很容易地看到EGFP在细胞中表达.将HIV-1siRNA表达载体与表达相应EGFP-HIV融合基因的质粒,共转染人胚肾293细胞,结果表明,和对照质控载体相比,转染了pHIV-siRNA质粒的细胞中EGFP-HIV的表达得到显著抑制.通过该途径,筛选出能抑制HIV-1基因表达的有效siRNA.此外,还在同一载体上表达两种或三种siRNA,分别针对不同的HIV基因,获得了良好的抑制效果. 相似文献
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RNA干扰技术在哺乳动物中的应用 总被引:12,自引:0,他引:12
RNA干扰(RNAi)是生物界普遍存在的一种抵御外来基因和病毒感染的进化保守机制.RNAi是由双链RNA触发的转录后基因沉默机制,具有序列特异性,在哺乳动物细胞中,RNAi由21~23个核苷酸组成的双链RNA引发.小干扰RNA(siRNA)可以在体外合成或通过表达载体在哺乳动物细胞内合成.由于RNAi技术具有快速、简单和特异性强等特点,在基因功能研究、抗病毒治疗和抗肿瘤治疗等方面有广泛的应用前景. 相似文献
4.
siRNA对SARS冠状病毒复制的抑制作用 总被引:7,自引:0,他引:7
为探讨siRNA在哺乳动物细胞中对SARS冠状病毒复制的抑制作用,针对BJ0 1株SARS冠状病毒复制酶基因(Pol)和刺突蛋白基因(S) ,设计4个siRNA ,并构建相应的siRNA表达载体及克隆细胞系.利用间接免疫荧光法及实时定量反转录PCR法,检测所设计的siRNA对SARS冠状病毒复制的抑制作用.结果表明,针对Pol基因的siRNA(psOe)在Vero细胞中可阻断BJ0 1株SARS病毒RNA的复制及其蛋白的表达.该结果为深入阐明SARS冠状病毒的致病机理及探讨SARS病毒防治新途径奠定了基础. 相似文献
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核糖核酸干扰(RNAi)是指一个由双链RNA诱导具有相同碱基序列的靶标RNA降解的现象,它是沉默基因表达的一个十分有效的手段.RNAi导致基因沉默的机制可分为以下两步:首先由核酸酶Dicer切割长的双链RNA形成小片段碱基(19—25)的siRNA.然后,这些siRNA组成一个RNA诱导沉默复合体(RISC),并且siRNA被一个内源激酶磷酸化,双链siRNA打开,让反义RNA引导RISC至其目的信使RNA(mRNA).从而使其目的mRNA内切降解.RNAi技术可以应用到许多生命科学研究方面,如功能基因组以及医药研究.同时讨论了RNAi的一些最新进展如siRNA的设计和导入细胞的方法. 相似文献
7.
鸡传染性支气管炎病毒的RNA干扰 总被引:8,自引:0,他引:8
为探讨短的双链RNA(siRNA)对鸡传染性支气管炎病毒(IBV)增殖的干扰作用,利用软件设计siRNA 1280个,75%位于Pol基因内.通过同源比较和保守性分析,筛选到针对Pol、M、N基因的12个siRNA(每个基因3~4个)作为后选目的片段,分别在Vero细胞、9日龄SPF鸡胚上进行基因干扰试验.结果,来自Pol、N靶序列的2个siRNA在Vero细胞上及鸡胚上均对IBV增殖产生明显的干扰作用,并与siRNA剂量有一定相关性,依赖于与mRNA互补的负链siRNA存在.本研究首次证实IBV增殖过程中存在siRNA干扰现象,为利用RNA干扰(RNAi)技术控制IBV提供了新手段. 相似文献
9.
RNA干扰(RNA interference,RNAi)是近几年发展起来的新技术,是外源和内源性双链RNA在生物体内诱导同源靶基因的mRNA特异性降解,因而抑制相应基因表达,导致转录后基因沉默的现象.尽管RNA干扰发现的时间较短,但由于其具有操作简单、成本低、特异性高和高效性等特点,因而发展迅速.小干扰RNA(small interfering RNA,siRNA)的可制备使RNAi在很多领域有了应用的前景,尤其是在复杂多变的肝脏疾病中.肝纤维化(hepatic fibrosis,HF)是多种慢性肝病发展的共同病理基础,RNAi技术在其基因治疗领域拥有广阔的前景.RNAi具有能够调节细胞增殖、抑制致病基因的表达、影响细胞的信号转导等方面的作用,可能成为肝纤维化有效的潜在治疗手段. 相似文献
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小干扰RNA对庚型肝炎病毒基因在人Huh-7细胞中表达的抑制作用 总被引:1,自引:0,他引:1
RNA干扰(RNAi)是由小干扰RNA(siRNA)引发的生物细胞内同源基因的转录后基因沉默现象, 是近年来兴起的一项研究生物基因调控与功能的崭新技术. 庚型肝炎病毒(HGV)是一单正链RNA病毒, 复制时不与宿主细胞基因组整合, 尤其适合用于RNAi的研究. 构建了含HGV完整结构基因并携带筛选标志潮霉素基因的真核表达载体pVAX.EH, 转染Huh-7细胞后, 筛选获得稳定表达HGV 结构蛋白的Huh-7细胞株(Huh-7-EH). RT-PCR和Western blot检测证实, HGV结构基因能在Huh-7-EH细胞中转录、表达, 并能进行剪切和翻译后修饰. 以体外转录法制备了2对靶向HGV E2基因的siRNA(1-E2 siRNA和2-E2 siRNA), 将其导入Huh-7-EH细胞中, 采用Western blot和克隆形成实验证实, HGV 1-E2 siRNA和2-E2 siRNA均能特异性抑制HGV结 构蛋白的表达, 抑制作用可维持1周以上. 其中2-E2 siRNA的抑制作用更强, 转染后对Huh-7-EH细胞潮霉素抗性克隆形成的抑制率达到了99%. Huh-7-EH细胞转染siRNA后对潮霉素敏感, 说 明HGV E2 siRNA不仅使HGV E2区的mRNA降解, 还可使融合在HGV E2区下游的潮霉素mRNA降解. 综上所述, 本实验建立的稳定表达HGV结构蛋白的Huh-7-EH细胞株, 能作为用于研究HGV复制和RNAi的细胞模型; HGV结构基因区的siRNA可同时抑制HGV结构蛋白及其下游的潮霉素基因的表达, 证明RNAi在真核细胞Huh-7-EH内可能存在放大作用. 相似文献
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小干扰RNAs(siRNAs)能够有效降解具有互补序列的RNA.在SARS-CoV的基因组RNA和所有亚基因组RNA的5′端均有一段共同的leader序列,而且该leader序列在不同的病毒分离物中高度保守,因此leader序列可作为一个用于抑制SARS-CoV复制的有效靶点.研究表明,针对leader序列化学合成的siRNA和DNA载体表达的shRNA都可以有效抑制SARS-CoV mRNA的表达.Leader序列特异的siRNA或shRNA不仅可以有效抑制leader与报告基因EGFP融合基因的表达,而且还可以有效抑制leader与刺突蛋白(spikeprotein)、膜蛋白(membrane protein)和核衣壳蛋白(nucleocapsid protein)基因的融合转录产物的表达.结果表明,针对leader序列的RNA干扰可以发展成为一种抗SARS-CoV治疗的有效策略. 相似文献
12.
Ohnishi Y Tokunaga K Hohjoh H 《Biochemical and biophysical research communications》2005,329(2):516-521
RNA interference (RNAi) is a powerful method for suppressing the expression of a gene of interest, and can be induced by 21-25 nucleotide small interfering RNA (siRNA) duplexes homologous to the silenced gene, which function as sequence-specific RNAi mediators in RNA-induced silencing complexes (RISCs). In the previous study, it was shown that fork-siRNA duplexes, whose sense-stranded siRNA elements carried a few nucleotide mismatches at the 3'-ends against the antisense-stranded siRNA elements, could enhance RNAi activity more than conventional siRNA duplexes in cultured mammalian cells. In this study, we further characterized fork-siRNA duplexes using reporter plasmids carrying target sequences complementary to the sense- or antisense-stranded siRNA elements in the untranslated region of Renilla luciferase. The data presented here suggest that nucleotide mismatches at either the 3'- or 5'-end of the sense-stranded siRNA elements in fork-siRNA duplexes could influence assembly of not only the antisense-stranded siRNA elements but also the sense-stranded elements into RISCs. In addition, we further suggest the possibility that there could be a positional effect of siRNA duplex on RNAi activity. 相似文献
13.
Inhibition of genes expression of SARS coronavirus by synthetic small interfering RNAs 总被引:26,自引:0,他引:26
RNA interference (RNAi) is triggered by the presence of a double-stranded RNA (dsRNA), and results in the silencing of homologous gene expression through the specific degradation of an mRNA containing the same sequence, dsRNAmediated RNAi can be used in a wide variety of eucaryotes to induce the sequence-specific inhibition of gene expression.Synthetic 21-23 nucleotide (nt) small interfering RNA (siRNA) with 2 nt 3‘ overhangs was recently found to mediate efficient sequence-specific mRNA degradation in mammalian cells. Here, we studied the effects of synthetic siRNA duplexes targeted to SARS coronavirus structural proteins E, M, and N in a cell culture system. Among total 26 siRNAduplexes, we obtained 3 siRNA duplexes which could sequence-specifically reduce target genes expression over 80% at the concentration of 60 nM in Vero E6 cells. The downregulation effect was in correlation with the concentrations of the siRNA duplexes in a range of 0-450 nM. Our results also showed that many inactive siRNA duplexes may be brought to life simply by unpairing the 5‘ end of the antisense strands. Results suggest that siRNA is capable of inhibiting SARS coronavirus genes expression and thus may be a new therapeutic strategy for treatment of SARS. 相似文献
14.
Zhang Y Li T Fu L Yu C Li Y Xu X Wang Y Ning H Zhang S Chen W Babiuk LA Chang Z 《FEBS letters》2004,560(1-3):141-146
The severe acute respiratory syndrome (SARS) has been one of the most epidemic diseases threatening human health all over the world. Based on clinical studies, SARS-CoV (the SARS-associated coronavirus), a novel coronavirus, is reported as the pathogen responsible for the disease. To date, no effective and specific therapeutic method can be used to treat patients suffering from SARS-CoV infection. RNA interference (RNAi) is a process by which the introduced small interfering RNA (siRNA) could cause the degradation of mRNA with identical sequence specificity. The RNAi methodology has been used as a tool to silence genes in cultured cells and in animals. Recently, this technique was employed in anti-virus infections in human immunodeficiency virus and hepatitis C/B virus. In this study, RNAi technology has been applied to explore the possibility for prevention of SARS-CoV infection. We constructed specific siRNAs targeting the S gene in SARS-CoV. We demonstrated that the siRNAs could effectively and specifically inhibit gene expression of Spike protein in SARS-CoV-infected cells. Our study provided evidence that RNAi could be a tool for inhibition of SARS-CoV. 相似文献
15.
RNA interference (RNAi) is a phenomenon of gene silence induced by a double-stranded RNA (dsRNA) homologous to a target gene.RNAi can be used to identify the function of genes or to knock down the targeted genes.In RNAi technology,19 bp double-stranded short interfering RNAs (siRNA) with characteristic 3' overhangs are usually used.The effects of siRNAs are quite varied due to the different choices in the sites of target mRNA.Moreover,there are many factors influencing siRNA activity and these factors are usually nonlinear.To find the motif features and the effect on siRNA activity,we carried out a feature extraction on some published experimental data and used these features to train a backpropagation neural network (BP NN).Then,we used the trained BP NN to predict siRNA activity. 相似文献
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SARS-CoV is a newly identified coronavirus that causes severe acute respiratory syndrome (SARS). Currently, there is no effective method available for prophylaxis and treatment of SARS-CoV infections. In the present study, the influence of small interfering RNA (siRNA) on SARS-CoV nucleocapsid (N) protein expression was detected in cultured cells and mouse muscles. Four siRNA expression cassettes driven by mouse U6 promoter targeting SARS-CoV N gene were prepared, and their inhibitory effects on expression of N and enhanced green fluorescence protein (EGFP) fusion protein were observed. A candidate siRNA was proved to down-regulate N and EGFP expression actively in a sequence-specific manner. The expression vector of this siRNA was constructed and confirmed to reduce N and EGFP expression efficiently in both cultured cells and adult mouse muscles. Our findings suggest that the siRNA should provide the basis for prophylaxis and therapy of SARS-CoV infection in human. 相似文献
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在真核细胞基因功能研究中, RNA 干涉 (RNAi) 已成为一种强有力的选择性沉默基因表达的实验工具. 建立一套可在哺乳动物培养细胞中高效、经济地表达 siRNA 的载体系统是 RNA 干涉研究的必要前提之一. 从 HepG2 细胞基因组 DNA 中克隆得到 H1 全长启动子 (374 bp),以之为基础构建了两套 RNA 干涉载体系统, pSL 和带有绿色荧光蛋白 (EGFP) 标签的 pESL ,并对 p53 基因进行了相应的 RNA 干涉研究. 干涉质粒瞬时转染 HepG2 细胞后,分别利用半定量 RT-PCR 和蛋白质印迹检测 p53 表达水平. 与商品化载体 pSilencerTM 3.1-H1 hygro 相比, pSL 和 pESL 对 p53 基因表达具有更高的干涉效率. 结果显示:干涉载体 pSL 和 pESL 能高效特异地下调目的基因表达,可作为哺乳动物中基因功能分析的有效工具. 相似文献
18.
RNA干扰作用(RNAi)研究进展 总被引:25,自引:4,他引:21
RNA干扰作用 (RNAi)是生物界一种古老而且进化上高度保守的现象 ,是基因转录后沉默作用 (PTGS)的重要机制之一 .RNAi主要通过dsRNA被核酸酶切割成 2 1~ 2 5nt的干扰性小RNA即siRNA ,由siRNA介导识别并靶向切割同源性靶mRNA分子而实现 .RNAi要有多种蛋白因子以及ATP参与 ,而且具有生物催化反应特征 .RNAi是新发现的一种通过dsRNA介导的特异性高效抑制基因表达途径 ,在后基因组时代的基因功能研究和药物开发中具有广阔应用前景 相似文献