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Author:
Date:
2021-04-05
[Abstract] The free-living nematode Caenorhabditis elegans is a popular model system for studying developmental biology. Here we describe a detailed protocol to high-pressure freeze the C. elegans embryo (either ex vivo after dissection, or within the intact worm) followed by quick freeze substitution. Processed samples are suitable for ultrastructural analysis by conventional electron microscopy (EM) or newer volume EM (vEM) approaches such as Focused Ion Beam Scanning Electron Microscopy (FIB-SEM). The ultrastructure of cellular features such as the nuclear envelope, chromosomes, endoplasmic reticulum and mitochondria are well preserved after these experimental procedures and yield accurate 3D models for visualization and analysis (Chang et al., 2020). This protocol was used in the 3D ...
[摘要] [摘要]自由生活的线虫秀丽隐杆线虫是研究发育生物学的流行模型系统。在这里,我们描述了详细的协议,以高压冷冻线虫的胚胎(解剖后离体,或完整的蠕虫内),然后快速冷冻替代。经过处理的样品适合通过常规电子显微镜(EM)或更新的体积EM(vEM)方法(如Focuse d离子束扫描电子显微镜(FIB-SEM))进行超微结构分析。的细胞特征,例如超微结构的NUCL耳信封,染色体,内质网和线粒体保存良好这些实验程序后,并产生精确的三维模型用于可视化和分析(张等人,2020)。在秀丽隐杆线虫合子的前核相遇后,该方案被用于膜和染色体的3D重建(Rahman等,2020)。
[背景技术]线虫是自由生活线虫具有许多特性,使其适合于科学的研究:(1)将蠕虫是〜1毫米长; ...
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Author:
Date:
2020-04-20
[Abstract] Exosomes secreted by colonic epithelial cells are present in feces and contain valuable epigenetic information, such as miRNAs, proteins, and metabolites. An in-depth study of this information is conducive to the diagnosis or treatment of relevant diseases. A crucial prerequisite of such a study is to establish an efficient isolation method, through which we can obtain a relatively more significant amount of exosomes from feces. This protocol is designed to effectively isolate a large number of exosomes from contaminants and other particles in feces by a combined method with fast filtration and sucrose density gradient ultracentrifugation. Exosomes generated by this method are suitable for further RNA, protein, and lipid analysis.
[摘要] [摘要] 外来体分泌的结肠上皮细胞是否存在,在粪便和包含有价值的表观遗传信息,例如miRNA,蛋白质和代谢。一个在深入研究这个信息,有利于诊断和治疗相关疾病的一种重要前提这项研究的目的是建立一种有效的分离方法,通过该方法我们可以从粪便中获得相对大量的外泌体。该方案旨在通过组合方法有效地从粪便中的污染物和其他颗粒中分离出大量外泌体通过快速过滤和蔗糖密度梯度超速离心。这种方法产生的外泌体适用于进一步的RNA,蛋白质和脂质分析。
[背景] 结肠外泌体由结肠上皮细胞分泌到管腔中,并沿大肠转运并存在于粪便中。这些外泌体的脂质双层结构可防止复杂条件下封装的生物分子(如miRNA)的降解(由于粪便)(古贺等人,2011 ; 邓等人,2013 )。该保护功能外体是非常有用的,因为这些受保护的内容可以用来诊断疾病,如溃疡性结肠炎和结肠癌症。重要的是,重新设计的外泌体也可以有效地将治疗性生物分子递送至某些特定的疾病靶标,而不会对宿主产生免疫毒性(Sun 等人,2010; Johnsen 等人,2014; Wang 等人,2016; Kim和Kim,2018 )。
迄今为止,已成功地从血液(Wu 等人,2017 ),尿液(Knepper和Pisitkun,2007; Motamedinia 等人,2016 ),培养细胞(Yeo 等人,2013 ...
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