| Dual Fluorescence Cytometry Assay to Assess Cellular Protein Levels
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Author:
Date:
2020-04-20
[Abstract] Expression levels of cellular proteins can be affected by various perturbations, such as genetic knockout of interactors, drug treatments or cell stress. To specifically measure the effects on protein levels post-synthesis under different experimental conditions, it is important to compensate for transcriptional and other upstream changes. Here, we provide a protocol for a dual-fluorescence flowcytometry-based assay to determine protein levels. The protein of interest is genetically linked to enhanced GFP (eGFP) followed by a viral 2A self-cleaving peptide sequence and mCherry. As a result, translation of the reporter construct leads to two fluorescent protein products from the same mRNA template, which enables unambiguous protein expression analysis with normalization across samples.
[摘要] [摘要 ] 表达水平的细胞蛋白质可受各种扰动,如基因敲除交互件,药物治疗小号或细胞压力。具体测量对蛋白质水平合成后在不同的实验条件,重要的是要补偿对于转录等上游的变化在这里,我们提供了一个协议为双- 荧光流。流式细胞仪为基础的检测,以确定蛋白质水平目的蛋白是遗传关联增强GFP(EGFP 其次是病毒2A自身切割肽)序列和mCherry结果,报告子构建体的翻译会导致来自同一mRNA模板的两个荧光蛋白产物,这使得能够进行明确的蛋白表达分析,并对整个样品进行归一化处理。
背景 ] 合成和维护的Cellu 拉尔在p- Roteins取决于多进程,从转录调节,处理和降解mRNA中翻译,折叠,本地化,翻译后修饰和蛋白质降解(沃格尔而且马科特,2012) 。具体研究的。在蛋白水平合成后的细胞扰动的影响,这一点很重要,以弥补变异上游步骤蛋白表达在这里,我们提供了一个协议的双- 荧光流术为基础的检测,以确定蛋白质水平处于稳定状态如前所述(Itakura 等人,2016; Chitwood 等人,2018; Ngo 等人,2019)。目的蛋白在基因上与增强的GFP(eGFP )融合,随后是病毒2A自切割肽序列和一个第二种荧光蛋白,mCherry (图1),由于在2A s时核糖体跳过了肽键,融合构建体的翻译产生了两种蛋白质产物,其比例为1:1。ite:与eGFP 和mCherry ...
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| Adhesion of Enteroaggregative E. coli Strains to HEK293 Cells
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Author:
Date:
2018-04-20
[Abstract] Enteroaggregative Escherichia coli (EAEC) is a recognized cause of acute diarrhea among both children and adults worldwide. EAEC strains are characterized by the presence of aggregative adherence fimbriae (AAF), which play a key role in pathogenesis by mediating attachment to the intestinal mucosa and by triggering host inflammatory responses. The aggregative adherence fimbria II (AAF/II) is the most important adherence factor of EAEC prototype strain 042 (EAEC042) to intestinal cells. Multiple receptors for AAF/II on epithelial cells have been identified including the transmembrane signaling mucin Muc1. This protocol describes a method to measure adherence of EAEC strains to HEK293 cells expressing the Muc1 glycoprotein.
[摘要] 肠道集聚性大肠杆菌(EAEC)是全球儿童和成人急性腹泻的公认原因。 EAEC菌株的特征在于存在聚集粘附菌毛(AAF),其通过介导与肠粘膜的附着和通过引发宿主炎症反应而在发病机制中起关键作用。 聚合粘附菌毛II(AAF / II)是EAEC原型菌株042(EAEC042)对肠细胞最重要的粘附因子。 已经鉴定了上皮细胞上AAF / II的多种受体,包括跨膜信号传导粘蛋白Muc1。 该协议描述了测量EAEC菌株对表达Muc1糖蛋白的HEK293细胞的依从性的方法。
【背景】EAEC是世界范围内地方性和流行性腹泻病的重要原因。尽管发展中国家儿童腹泻最常见,但EAEC还与免疫受损成人腹泻,旅行者和工业化国家的食源性疾病有关,例如由志贺毒素(Stx)2a型产生的大致致命爆发2011年在北欧的血清型O104:H4的EAEC菌株(Harrington等人,2006; Rasko等人,2011)。 EAEC发病机制由生物体粘附肠细胞,产生肠毒素和细胞毒素并最终诱导炎症的能力决定(Harrington等,2006)。 EAEC对肠细胞的依从性由AAF菌毛粘附素介导(Czeczulin等人,1997)。迄今为止,已经描述了至少5种AAF菌毛的变体,全部编码在范围为55至65MDa的毒力质粒中(Jonsson等人,2015)。 ...
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| Generating Loss-of-function iPSC Lines with Combined CRISPR Indel Formation and Reprogramming from Human Fibroblasts
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Author:
Date:
2018-04-05
[Abstract] For both disease and basic science research, loss-of-function (LOF) mutations are vitally important. Herein, we provide a simple stream-lined protocol for generating LOF iPSC lines that circumvents the technical challenges of traditional gene-editing and cloning of established iPSC lines by combining the introduction of the CRISPR vector concurrently with episomal reprogramming plasmids into fibroblasts. Our experiments have produced nearly even numbers of all 3 genotypes in autosomal genes. In addition, we provide a detailed approach for maintaining and genotyping 96-well plates of iPSC clones.
[摘要] 对于疾病和基础科学研究而言,功能丧失(LOF)突变是非常重要的。 在这里,我们提供了一个简单的流线化协议来产生LOF iPSC系列,通过将CRISPR载体与附加型重编程质粒同时引入成纤维细胞,规避了传统基因编辑和已建立的iPSC系的克隆的技术挑战。 我们的实验已经产生了常染色体基因中所有3种基因型的几乎偶数。 此外,我们提供了一个详细的方法来维护和iPSC克隆的96孔板的基因分型。
【背景】CRISPR / Cas9技术允许简单且特异地针对特定基因组位置进行基因编辑。将该技术与诱导性多能干细胞(iPSC)的疾病建模和再生医学潜力相结合将继续对生物医学研究产生前所未有的影响。然而,使CRISPR / Cas9系统适应iPSC已经提出了几个挑战。在细胞系中进行基因编辑的传统方法是用表达Cas9蛋白质的质粒和指导RNA(gRNA)转染细胞,然后产生单克隆并筛选所需的遗传改变。不幸的是,iPSC不适用于单细胞克隆。已经开发了几种补充媒介和克隆方法来克服这一困难,但仍然充满昂贵的设备(低氧培养箱),困难的技术步骤(FACS分选的单个iPSC的存活)或劳动密集型方案(亚克隆)(Forsyth ,2006; Miyaoka ...
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