| Chromatin Immunoprecipitation (ChIP) to Assess Histone Marks in Auxin-treated Arabidopsis thaliana Inflorescence Tissue
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Author:
Date:
2020-12-05
[Abstract] Chromatin immunoprecipitation coupled with quantitative PCR (ChIP-qPCR) or high-throughput sequencing (ChIP-seq) has become the gold standard for the identification of binding sites of DNA binding proteins and the localization of histone modification on a locus-specific or genome-wide scale, respectively. ChIP experiments can be divided into seven critical steps: (A) sample collection, (B) crosslinking of proteins to DNA, (C) nuclear extraction, (D) chromatin isolation and fragmentation by sonication, (E) immunoprecipitation of histone marks by appropriate antibodies, (F) DNA recovery, and (G) identification of precipitated protein-associated DNA by qPCR or high-throughput sequencing. Here, we describe a time-efficient protocol that can be used for ChIP-qPCR experiments to study the ...
[摘要] [摘要]染色质免疫沉淀与定量PCR(ChIP -qPCR)或高通量测序(ChIP-seq )结合已成为鉴定DNA结合蛋白结合位点和在特定基因座上定位组蛋白修饰的金标准。或全基因组规模。ChIP实验可分为七个关键步骤:(A)样品收集,(B)蛋白质与DNA交联,(C)核提取,(D)染色质分离和f 超声处理的碎片化;(E)通过适当的抗体对组蛋白标记的免疫沉淀;(F)DNA的回收;(G)通过qPCR或高通量测序鉴定沉淀的蛋白质相关DNA。在这里,我们描述了一种可用于ChIP -qPCR实验的省时协议,以研究模型植物拟南芥幼花序中组蛋白修饰的定位。
[背景]真核基因组中的染色体中,其与组蛋白DNA结合形成染色质组织的。组蛋白与DNA之间的紧密相互作用阻碍了DNA与其他因素的可及性。因此,组蛋白相对于重要调控DNA序列的位置和组蛋白-DNA接触的强度可以隐藏或暴露提供另一层基因调控的基因。在染色质中,组蛋白和DNA均可被化学修饰(Zhou等,2010 ;Schübeler ,2015)。根据修饰的物理性质,染色质状态可以阻止或增强基础基因的转录(Kouzarides ,2007; Yang等,2014; Wu等,2015)。在植物中,染色质的表观遗传状态已被证明是响应发育或环境刺激的基因表达的关键决定因素(Yang等人,2014 ; Wu等人,2015 ; ...
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| Human Endothelial Cell Spheroid-based Sprouting Angiogenesis Assay in Collagen
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Author:
Date:
2018-09-05
[Abstract] Angiogenesis, the formation of new blood vessels from pre-existing ones plays an important role during organ development, regeneration and tumor progression. The spheroid-based sprouting assay is a well-established and robust method to study the influence of genetic alterations or pharmacological compounds on capillary-like tube formation of primary cultured endothelial cells. A major advantage of this assay is the possibility to study angiogenesis in a 3D environment. Endothelial cells are cultured as hanging drops to form spheroids. Those spheroids are embedded into a collagen matrix and tube formation is analyzed 24 h later. By analyzing sprout number and sprout length the effects of genetic manipulation or drug treatment on angiogenesis can be investigated.
[摘要] 血管生成,从先前存在的血管形成新血管在器官发育,再生和肿瘤进展中起重要作用。 基于球体的发芽测定法是一种成熟且稳健的方法,用于研究遗传改变或药理学化合物对原代培养的内皮细胞的毛细血管样管形成的影响。 该测定的主要优点是可以在3D环境中研究血管生成。 将内皮细胞培养为悬滴以形成球状体。 将这些球状体嵌入胶原基质中,24小时后分析管形成。 通过分析发芽数和发芽长度,可以研究遗传操作或药物治疗对血管生成的影响。
【背景】血管为器官提供氧气和营养。在不再满足局部需求的情况下,细胞分泌血管内皮生长因子(VEGF)以诱导新血管的形成。新的容器芽由一个由茎细胞牵引的前端细胞组成(Potente和Makinen,2017)。血管生成在生理条件下(例如,肌肉和脂肪组织的生长)以及病理条件(例如,伤口愈合,黄斑变性和肿瘤生长)发生。因此,非常需要破译协调血管生成的基本机制并测试干扰病理性血管生成的化合物。
基于球体的发芽试验由Thomas Korff博士和Hellmut Augustin博士在90年代后期开发(Korff和Augustin,1999),使研究人员能够快速研究药物或基因操作对发芽血管生成的影响。稳健的方式(Heiss et al。,2015)。基于球体的发芽测定的一个重要优点是分析3D环境中的芽形成。这促进内皮细胞之间的细胞 - ...
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| Genome Editing in Diatoms Using CRISPR-Cas to Induce Precise Bi-allelic Deletions
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Author:
Date:
2017-12-05
[Abstract] Genome editing in diatoms has recently been established for the model species Phaeodactylum tricornutum and Thalassiosira pseudonana. The present protocol, although developed for T. pseudonana, can be modified to edit any diatom genome as we utilize the flexible, modular Golden Gate cloning system. The main steps include how to design a construct using Golden Gate cloning for targeting two sites, allowing a precise deletion to be introduced into the target gene. The transformation protocol is explained, as are the methods for screening using band shift assay and/or restriction site loss.
[摘要] 最近为三角褐指藻(Phaeodactylum tricornutum)和海绵假丝酵母(Thalassiosira pseudonana)建立了硅藻基因组编辑。 目前的协议,虽然开发的 T。 pseudonana ,可以修改编辑任何硅藻基因组,因为我们利用灵活,模块化的金门克隆系统。 主要步骤包括如何设计构建使用金门克隆靶向两个网站,允许一个精确的删除被引入目标基因。 解释转化方案,以及使用带移位测定和/或限制性位点丢失进行筛选的方法。
【背景】CRISPR-Cas正在迅速成为分子研究的一个关键方法。基于在细菌和古细菌中发现的病毒防御机制,CRISPR-Cas诱导基因组中精确位置的双链断裂(DSBs)。它涉及使用与CRISPR ...
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