| Induction of Epithelial-mesenchymal Transition in MDCK II Cells
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Author:
Date:
2021-02-05
[Abstract] Epithelial-mesenchymal transition (EMT) is a reversible process of epithelial cell transdifferentiation into a mesenchymal cell, that enables initiation of cell migration. EMT plays an important role in embryonic development, tissue repair and cancer metastasis. Better understanding of cellular and molecular events during EMT will not only provide novel insights on how mammalian organism develops and how epithelial tissues regenerate, but also can identify novel therapeutic targets for cancer therapy. Here we aim to provide a detailed protocol on how to induce EMT in Madin-Darby Canine Kidney (MDCK) II epithelial cell line and perform immunofluorescent staining on EMT-induced cells.
[摘要] [摘要]上皮-间质转化(EMT)是上皮细胞向分化为间充质细胞的可逆过程,能够启动细胞迁移。EMT在胚胎发育,组织修复和癌症转移中起着重要作用。更好地了解EMT过程中的细胞和分子事件,不仅将为哺乳动物生物的发育以及上皮组织的再生提供新颖的见解,而且还可为癌症治疗确定新的治疗靶标。在这里,我们旨在提供有关如何在Madin-Darby犬肾脏(MDCK)II上皮细胞系中诱导EMT并在EMT诱导的细胞上进行免疫荧光染色的详细协议。
[背景]上皮细胞的特征在于细胞可塑性,即具有采用不同细胞表型的能力(Carter等,2019; Yuan等,2019)。上皮-间质转化(EMT)是上皮细胞可塑性的一种形式。在EMT期间,上皮细胞会破坏细胞间连接,使其极性失去作用,并从鳞状,长方体或柱状变为梭形并迁移,从而获得间充质细胞的特性(Kalluri和Weinberg,2009)。EMT可以通过免疫染色和测量标志物(例如E-钙粘蛋白,ZO-1,波形蛋白,纤连蛋白和N-钙粘蛋白)的表达水平进行评估(Kalluri和Weinberg,2009)。在过去十年中在EMT研究中心大多的转录因子的作用例如,SNAIL1 / 2,ZEB1 / ...
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| A Transient Transfection-based Cell Adhesion Assay with 293T Cells
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Author:
Date:
2021-01-05
[Abstract] The in vitro cell adhesion assay is a quantitative method for measuring selective cell adhesion to specific proteins. Traditionally, cell adhesion assays employ purified protein immobilized on a solid glass or plastic surface. Here, we describe a transient 293T cell transfection-based cell adhesion assay to study selective cell adhesion of a specific cell type to a protein of interest. In this protocol, 293T cells are transfected with a mammalian expression plasmid containing mSiglec1 cDNA or an empty plasmid as a mock control and are then cultured to form a monolayer. Subsequently, these Siglec1-expressing and mock-transfected 293T cell monolayers are used for cell adhesion assays with GFP-expressing B16F10 cells. The number of GFP+ cancer cells adhering to each 293T monolayer is a ...
[摘要] [摘要]的体外细胞粘附分析是一种用于测量到特定蛋白选择性细胞粘附的定量方法。传统上,细胞粘附测定采用固定在固体玻璃或塑料表面上的纯化蛋白质。在这里,我们描述了基于瞬时293T细胞转染的细胞粘附试验,以研究特定细胞类型对目标蛋白质的选择性细胞粘附。在该协议中,将293T细胞用包含mSiglec1 cDNA的哺乳动物表达质粒或空质粒作为模拟对照转染,然后培养以形成单层。随后,将这些表达Siglec1和模拟转染的293T细胞单层用于表达GFP的B16F10细胞的细胞粘附测定。GFP +的数量 粘附在每个293T单层上的癌细胞是一种定量手段,用于比较癌细胞与Siglec1的选择性粘附性。该方法消除了表达和纯化目的蛋白以进行体外细胞粘附测定的需要,并且可以容易地用难以纯化的蛋白进行操作,同时保持其天然的原位结构。
关键词:细胞粘附试验,细胞粘附,癌细胞粘附试验,293T,瞬时转染,Siglec1,F荧光显微镜
[背景]细胞-细胞相互作用对于生物学过程,例如组织发育,再生,和临界形态发生,以及免疫应答和癌症转移(Gumbiner,1996 ...
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| Estimation of the Minimum Number of Replication Origins Per Chromosome in any Organism
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Author:
Date:
2020-10-20
[Abstract] Eukaryote nuclear genomes predominantly replicate through multiple replication origins. The number of replication origins activated per chromosome during the S-phase duration may vary according to many factors, but the predominant one is replication stress. Several studies have applied different approaches to estimate the number and map the positions of the replication origins in various organisms. However, without a parameter to restrict the minimum of necessary origins, less sensitive techniques may suggest conflicting results. The estimation of the minimum number of replication origins (MO) per chromosome is an innovative method that allows the establishment of a threshold, which serves as a parameter for genomic approaches that map origins. For this, the MO can be easily ...
[摘要] [摘要] 比率可能因多种因素而变化,但最主要的因素是复制应力。一些研究应用了不同的方法来估计复制源在不同生物体中的数量和位置。然而,如果没有一个参数来限制必要起源的最小值,那么不太敏感的技术可能会产生相互矛盾的结果。估计每个染色体的最小复制源数量(MO)是一种创新的方法,它允许建立一个阈值,作为绘制起源的基因组方法的参数。为此,MO可以很容易地通过一个公式得到,这个公式需要作为参数:染色体大小、S期持续时间和复制率。在基因组数据库(如NCBI)中可以获得任何生物体的染色体大小,通过监测DNA复制来估计S期的持续时间,并通过DNA组合方法获得复制率。 提供了一种简单、快速的估算MO的方法一个新的方法学框架来协助研究任何有机体。
关键词: DNA复制,复制来源,复制率,S期持续时间,染色体大小
[背景] ...
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