Single-Cell RNA Sequencing of Mutant Whole Mouse Embryos: From the Epiblast to the End of Gastrulation.

IF 1.2 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES
Elizabeth Abraham, Mikel Zubillaga, Thomas Roule, Eleonora Stronati, Naiara Akizu, Conchi Estaras
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Abstract

Over the last decade, single-cell approaches have become the gold standard for studying gene expression dynamics, cell heterogeneity, and cell states within samples. Before single-cell advances, the feasibility of capturing the dynamic cellular landscape and rapid cell transitions during early development was limited. In this paper, a robust pipeline was designed to perform single-cell and nuclei analysis on mouse embryos from embryonic day E6.5 to E8, corresponding to the onset and completion of gastrulation. Gastrulation is a fundamental process during development that establishes the three germinal layers: mesoderm, ectoderm, and endoderm, which are essential for organogenesis. Extensive literature is available on single-cell omics applied to wild-type perigastrulating embryos. However, single-cell analysis of mutant embryos is still scarce and often limited to FACS-sorted populations. This is partially due to the technical constraints associated with the need for genotyping, timed pregnancies, the count of embryos with desired genotypes per pregnancy, and the number of cells per embryo at these stages. Here, a methodology is presented designed to overcome these limitations. This method establishes breeding and timed pregnancy guidelines to achieve a higher chance of synchronized pregnancies with desired genotypes. Optimization steps in the embryo isolation process coupled with a same-day genotyping protocol (3 h) allow for microdroplet-based single-cell to be performed on the same day, ensuring the high viability of cells and robust results. This method further includes guidelines for optimal nuclei isolations from embryos. Thus, these approaches increase the feasibility of single-cell approaches of mutant embryos at the gastrulation stage. We anticipate that this method will facilitate the analysis of how mutations shape the cellular landscape of the gastrula.

突变全鼠胚胎的单细胞 RNA 测序:从外胚层到胚层末期。
过去十年来,单细胞方法已成为研究样本内基因表达动态、细胞异质性和细胞状态的黄金标准。在单细胞技术取得进步之前,捕捉早期发育过程中动态细胞景观和快速细胞转换的可行性是有限的。本文设计了一个强大的管道,对胚胎 E6.5 天到 E8 天(对应于胃形成的开始和完成)的小鼠胚胎进行单细胞和细胞核分析。胃形成是发育过程中的一个基本过程,它建立了器官形成所必需的三个胚层:中胚层、外胚层和内胚层。已有大量文献介绍了应用于野生型围胃发育胚胎的单细胞全息技术。然而,突变体胚胎的单细胞分析仍然很少,而且往往仅限于 FACS 分选的群体。这部分是由于基因分型、定时妊娠、每次妊娠所需基因型的胚胎数量以及这些阶段每个胚胎的细胞数量等相关技术限制造成的。这里介绍一种旨在克服这些限制的方法。该方法制定了育种和定时妊娠准则,以获得更高的理想基因型同步妊娠几率。胚胎分离过程中的优化步骤与当天的基因分型方案(3 小时)相结合,可在当天进行基于微滴的单细胞,确保细胞的高存活率和可靠的结果。该方法还包括从胚胎中进行最佳细胞核分离的指南。因此,这些方法提高了在胚胎发育阶段对突变胚胎进行单细胞处理的可行性。我们预计,这种方法将有助于分析突变如何塑造胃小体的细胞景观。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Jove-Journal of Visualized Experiments
Jove-Journal of Visualized Experiments MULTIDISCIPLINARY SCIENCES-
CiteScore
2.10
自引率
0.00%
发文量
992
期刊介绍: JoVE, the Journal of Visualized Experiments, is the world''s first peer reviewed scientific video journal. Established in 2006, JoVE is devoted to publishing scientific research in a visual format to help researchers overcome two of the biggest challenges facing the scientific research community today; poor reproducibility and the time and labor intensive nature of learning new experimental techniques.
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