| Plant ARGONAUTE Protein Immunopurification for Pathogen Cross Kingdom Small RNA Analysis
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Author:
Date:
2021-02-05
[Abstract] Over the last decade, it has been noticed that microbial pathogens and pests deliver small RNA (sRNA) effectors into their host plants to manipulate plant physiology and immunity for infection, known as cross kingdom RNA interference. In this process, fungal and oomycete parasite sRNAs hijack the plant ARGONAUTE (AGO)/RNA-induced silencing complex to post-transcriptionally silence host target genes. We hereby describe the methodological details of how we recovered cross kingdom sRNA effectors of the oomycete pathogen Hyaloperonospora arabidopsidis during infection of its host plant ...
[摘要] [摘要]在过去的十年中,已经注意到,微生物病原体和害虫将小RNA(sRNA)效应子传递到宿主植物中,以操纵植物生理学和免疫力,称为跨界RNA干扰。在此过程中,真菌和卵菌寄生虫sRNA劫持了植物ARGONAUTE(AGO)/ RNA诱导的沉默复合体,以转录后沉默宿主靶基因。我们在此描述方法学的细节,我们如何在宿主植物拟南芥感染期间恢复卵菌病原体拟南芥的跨界sRNA效应子。该生物协议包含两个部分:第一,关于植物AGO / sRNA co- 免疫纯化和sRNA回收,用于Illumina高通量测序分析。其次,我们解释了如何进行生物信息学小号斯尔纳序列分析读取可使用Galaxy服务器。原则上,该协议适用于研究来自多种宿主植物和植物相互作用(微生物)的AGO结合的sRNA。
[背景]小RNA(sRNA)可以充当病原体效应物,劫持植物ARGONAUTE(AGO)/ RNA诱导的沉默复合物(RISC),并使宿主mRNA沉默以进行感染,这种病毒被称为跨界RNA干扰的毒力机制(Weiberg等。,2015; Zeng等,2019)。分析感染期间与植物AGO结合的sRNA的库是一种选择方法,以全面了解可能通过宿主AGO / RISC起作用的植物入侵性病原体sRNA。基于抗体的植物AGO / ...
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| Generation of Caenorhabditis elegans Transgenic Animals by DNA Microinjection
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Author:
Date:
2017-10-05
[Abstract] Microinjection is the most frequently used tool for genetic transformation of the nematode Caenorhabditis elegans, facilitating the transgenic expression of genes, genome editing by the clustered regularly interspersed short palindromic repeats (CRISPR)-Cas9 system, or transcription of dsRNA for RNA intereference (RNAi). Exogenous DNA is delivered into the developing oocytes in the germline of adult hermaphrodites, which then generate transgenic animals among their offspring. In this protocol, we describe the microinjection procedure and the subsequent selection of transgenic progeny.
[摘要] 显微注射是线虫秀丽隐杆线虫遗传转化中最常用的工具,促进基因的转基因表达,通过聚集的定期散布的短回文重复序列(CRISPR)-Cas9系统的基因组编辑或转录 dsRNA用于RNA干扰(RNAi)。 外源DNA被递送到成年雌雄同株的种系中的发育中的卵母细胞中,然后在它们的后代中产生转基因动物。 在该方案中,我们描述了显微注射程序和随后的转基因后代选择。
【背景】在C.通过显微注射的DNA转化通常用于产生过表达或异位表达可以与标签(例如,绿色荧光蛋白[GFP])融合的基因的转基因动物,允许突变体的表型拯救和/或蛋白质的定位和功能的分析(Carter等人,1990; Chalfie等人,1994; Mello和Fire,1995)。聚集的定期散布的短回文重复(CRISPR)-Cas9系统的出现需要显微注射以通过引入点突变或插入/缺失突变来实现高度特异性的基因组编辑(概述于Dickinson和Goldstein,2016)。此外,该技术被应用于dsRNA的可诱导和/或组织特异性转录以便于遗传性RNA干扰(RNAi)(Tavernarakis等人,2000) ...
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| TGFβ Stimulation Assay
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Author:
Date:
2014-12-05
[Abstract] TGFβ is part of a growth factor superfamily which modulates cell growth, differentiation, adhesion, migration, ECM synthesis and apoptosis (Massague, 1998; Siegel and Massague, 2003). Free TGFβ binds to its high affinity TGFβ receptor, a receptor serine/threonine kinase, inducing phosphorylation of Smad2/3 which subsequently forms a complex with Smad4 to translocate to the nucleus where it interacts with multiple co-activators and repressors generating distinct transcriptional responses.
Indeed, TGFβ signaling shows a remarkable cellular context dependency and apparent ...
[摘要] TGFβ是调节细胞生长,分化,粘附,迁移,ECM合成和凋亡的生长因子超家族的一部分(Massague,1998; Siegel和Massague,2003)。游离TGFβ结合到其高亲和力TGFβ受体,一种受体丝氨酸/苏氨酸激酶,诱导Smad2/3的磷酸化,随后与Smad4形成复合物转移到细胞核,其中它与多种共激活剂和阻遏物相互作用产生不同的转录反应。实际上,TGFβ信号传导显示出显着的细胞环境依赖性和表观多功能性:例如TGFβ能够抑制许多上皮细胞中的细胞增殖,但也可以增强成纤维细胞中的增殖和内皮细胞中的细胞生长(Guasch等人,2007; Xiao等人,2012年);它增强干细胞多能性,但促进其他细胞的分化(Park,2011);在癌症发展中,它抑制恶变前细胞增殖,但同时促进转移到转移表型(Chaudhury和Howe,2009)。
TGFβ刺激测定监测细胞对TGFβ的反应性。在TGFβ刺激时,可以分析短期效应例如Smad2磷酸化和长期效应例如细胞增殖。将描述用于小鼠角质形成细胞的测定,其中TGFβ强烈抑制细胞增殖,但是这两种测定也适用于其它细胞类型。
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