Genome-wide analysis of anterior-posterior mRNA regionalization in Stentor coeruleus reveals a role for the microtubule cytoskeleton.

Ashley R Albright, Connie Yan, David Angeles-Albores, Tatyana Makushok, Jamarc Allen-Henderson, Wallace F Marshall
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Abstract

Cells have complex and beautiful structures that are important for their function. However, understanding the molecular mechanisms that produce these structures is a challenging problem due to the gap in size scales between molecular interactions and cellular structures. The giant ciliate Stentor coeruleus is a unicellular model organism whose large size, reproducible structure, and ability to heal wounds and regenerate have historically allowed the formation of structure in a single cell to be addressed using methods of experimental embryology. Such studies have shown that specific cellular structures, such as the membranellar band, always form in particular regions of the cell, which raises the question: what is the source of positional information within this organism? By analogy with embryonic development, in which regionalized mRNA is often used to mark position, we asked whether specific regionalized mRNAs might mark position along the anterior-posterior axis of Stentor. By physically bisecting cells and conducting bulk RNA sequencing, we were able to identify sets of messages enriched in either the anterior or posterior half. We then conducted half-cell RNA-sequencing in paired anteriors and posteriors of cells in which the microtubule cytoskeleton was disrupted by RNAi of β-tubulin or dynein intermediate chains. We found that many messages either lost their regionalized distribution or switched to an opposite distribution, such that anterior-enriched messages in control became posterior-enriched in the RNAi cells, or vice versa. This study indicates that mRNA can be regionalized within a single giant cell and that microtubules may play a role, possibly by serving as tracks for the movement of the messages.

Abstract Image

Abstract Image

Abstract Image

蓝斑狭窄前后mRNA定位的全基因组分析揭示了微管细胞骨架的作用。
细胞具有复杂而美丽的结构,这些结构对其功能很重要,但由于分子相互作用和细胞结构之间的尺寸尺度差距,理解产生这些结构的分子机制是一个具有挑战性的问题。蓝斑巨型纤毛虫是一种单细胞模式生物,其体积大、结构可再生、具有愈合伤口和再生的能力,历史上允许使用实验胚胎学的方法来解决单个细胞中结构的形成问题。这些研究表明,特定的细胞结构,如口腔器具,总是在细胞的特定区域形成,这就提出了一个问题:这个生物体内的位置信息来源是什么?与胚胎发育相似,在胚胎发育中,定位的信使核糖核酸经常被用来标记位置,我们询问沿着支架前后轴的位置是否可能被特定的区域化信使核糖核酸标记。通过物理上将细胞一分为二并进行半细胞RNA测序,我们能够识别前半部分或后半部分富集的信息集。我们在细胞中重复了这一分析,其中一组沿细胞全长延伸的纵向微管束,即KM纤维,被β-微管蛋白的RNAi破坏。我们发现,许多信息要么失去了区域化分布,要么转变为相反的分布,使得对照中的前向富集信息在RNAi细胞中变得后向富集,反之亦然。这项研究表明,信使核糖核酸可以在单个巨细胞内区域化,微管可能通过充当信息运动的轨道而发挥作用。
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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