| Detecting the Interaction of Double-stranded RNA Binding Protein, Viral Protein and Primary miRNA Transcript by Co-immunoprecipitation in planta
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Author:
Date:
2018-05-05
[Abstract] MicroRNAs (miRNAs) play important roles in plant growth, development, and response to infection by microbes. Double-stranded RNA binding protein 1 (DRB1) facilitates the processing of primary miRNA transcripts into mature miRNAs. Recently, we found that NS3 protein encoded by rice stripe virus (RSV) associates with DRB1 and promotes miRNA biogenesis during RSV infection (Zheng et al., 2017). RNA co-immunoprecipitation (RIP) method was applied to identity association patterns among DRB1, NS3, and miRNA transcript.
[摘要] 微小RNA(miRNA)在植物生长,发育和微生物感染反应中发挥重要作用。 双链RNA结合蛋白1(DRB1)有助于将初级miRNA转录物加工成成熟的miRNA。 最近,我们发现水稻条纹病毒(RSV)编码的NS3蛋白与DRB1相关并促进RSV感染期间的miRNA生物合成(Zheng等人,2017)。 RNA共免疫沉淀(RIP)方法被用于鉴定DRB1,NS3和miRNA转录物之间的关联模式。
【背景】在双链RNA(dsRNA)结合蛋白HYPONASTIC LEAVES1(DRB1 / HYL1)的帮助下,通过RNA酶III酶DICER-LIKE1(DCL1)从其初级转录物(pri-miRNA) 锌指蛋白SERRATE(SE)。 水稻条纹病毒(RSV)感染广泛地干扰miRNA积累。 我们发现RSV编码的非结构蛋白3(NS3)通过与水稻中的DRB1相互作用下调pri-miRNAs来促进miRNA积累(Zheng等人,2017)。 为了揭示NS3如何增强pri-miRNA的加工,我们使用免疫共沉淀(Co-IP)来说明NS3,DRB1和pri-miRNA体内的关系。 该协议有助于了解两种蛋白质和一种RNA转录本之间的关联模式。
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| Co-immunoprecipitation of Flag-TLR3 or Myc-MSR1 with HCV RNA
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Author:
Date:
2014-03-05
[Abstract] Co-immunoprecipitation assay of TLR3-Flag or Myc-MSR1 with HCV RNA is used to identify direct interaction of viral RNA with host proteins that recognize viral RNA to initiate interferon (IFN) signaling, a crucial antiviral response of the host cells. Both Toll-like receptor 3 (TLR3) and class-A scavenger receptor type 1 (MSR1) proteins recognize viral double-stranded RNA (dsRNA) which may be released into the extracellular milieu or spread from HCV-infected cells to uninfected neighbor cells via cell-to-cell contact, resulting in IFN-β activation that restricts viral propagation. We have found that MSR1 binds extracellular dsRNA, mediating its endocytosis and transport toward the endosome where it is engaged by TLR3, thereby triggering IFN responses in both infected and uninfected cells. ...
[摘要] TLR3-Flag或Myc-MSR1与HCV RNA的免疫沉淀测定用于鉴定病毒RNA与识别病毒RNA以启动干扰素(IFN)信号传导(宿主细胞的关键抗病毒反应)的宿主蛋白的直接相互作用。 Toll样受体3(TLR3)和A类1型清道夫受体(MSR1)蛋白识别病毒双链RNA(dsRNA),其可以释放到细胞外环境或从HCV感染的细胞扩散到未感染的邻近细胞细胞间接触,导致限制病毒繁殖的IFN-β活化。我们已经发现MSR1结合细胞外dsRNA,介导其胞吞作用并向内吞体转运,其中TLR3参与其中,从而在感染和未感染的细胞中引发IFN应答。我们使用这个测定来证明MSR1在介导HCV RNA的TLR3识别中的关键作用。该方案中描述的测定基于具有条件缓冲液的常规蛋白质免疫沉淀方案,其防止裂解物中存在的RNA酶引起的非特异性RNA降解。与Flag-标记的蛋白相关的RNA分子被特异性抗体捕获,随后是蛋白G捕获,提取并通过RT-PCR测定定量检测,随后是用于可视化的琼脂糖凝胶电泳。这种方法也可以应用于其他蛋白质-RNA相互作用的检测。
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