| Dual Fluorescence Reporter Based Analytical Flow Cytometry for miRNA Induced Regulation in Mammalian Cells
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Author:
Date:
2018-09-05
[Abstract] MicroRNA-induced gene regulation is a growing field in basic and translational research. Examining this regulation directly in cells is necessary to validate high-throughput data originated from RNA sequencing technologies. For this several studies employ luciferase-based reporters that usually measure the whole cell population, which comes with low resolution for the complexity of the miRNA-induced regulation. Here, we provide a protocol using a dual-fluorescence reporter and flow cytometry reaching single cell resolution; the protocol contains a simplified workflow that includes: vector generation, data acquisition, processing, and analysis using the R environment. Our protocol enables high-resolution measurements of miRNA induced post-transcriptional gene regulation and combined with ...
[摘要] MicroRNA诱导的基因调控是基础和转化研究中不断增长的领域。 直接在细胞中检查该调节对于验证源自RNA测序技术的高通量数据是必要的。 对于这一研究,一些研究采用基于荧光素酶的报告基因,通常测量全细胞群,其具有低分辨率的miRNA诱导调节的复杂性。 在这里,我们提供使用双荧光报告基因和流式细胞仪达到单细胞分辨率的方案; 该协议包含一个简化的工作流程,包括:使用R环境进行矢量生成,数据采集,处理和分析。 我们的协议可实现miRNA诱导的转录后基因调控的高分辨率测量,并结合系统生物学,可用于估计miRNA的熟练程度。
【背景】MicroRNAs(miRNA)是高度保守的小型非蛋白质编码RNA(21-22nt),可调节转录后基因表达并调节基因生物学过程,如发育和细胞稳态(Lagos-Quintana et al。,2001; Fabian et al。,2010; Bartel,2018),包括miRNA表达与肿瘤进展和侵袭性相关的几种病理(Lu et al。, 2005; Di Leva和Croce,2013; Krishnan et al。,2015; Bertoli et ...
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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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