神经诱导的基因调控网络。

A gene regulatory network for neural induction.

机构信息

Department of Cell and Developmental Biology, University College London, London, United Kingdom.

Centre for Craniofacial and Regenerative Biology, King's College London, London, United Kingdom.

出版信息

Elife. 2023 Mar 3;12:e73189. doi: 10.7554/eLife.73189.

DOI:10.7554/eLife.73189

PMID:36867045

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10038663/

Abstract

During early vertebrate development, signals from a special region of the embryo, the organizer, can redirect the fate of non-neural ectoderm cells to form a complete, patterned nervous system. This is called neural induction and has generally been imagined as a single signalling event, causing a switch of fate. Here, we undertake a comprehensive analysis, in very fine time course, of the events following exposure of competent ectoderm of the chick to the organizer (the tip of the primitive streak, Hensen's node). Using transcriptomics and epigenomics we generate a gene regulatory network comprising 175 transcriptional regulators and 5614 predicted interactions between them, with fine temporal dynamics from initial exposure to the signals to expression of mature neural plate markers. Using in situ hybridization, single-cell RNA-sequencing, and reporter assays, we show that the gene regulatory hierarchy of responses to a grafted organizer closely resembles the events of normal neural plate development. The study is accompanied by an extensive resource, including information about conservation of the predicted enhancers in other vertebrates.

摘要

在早期脊椎动物发育过程中，胚胎一个特殊区域（组织者）的信号可以改变非神经外胚层细胞的命运，使其形成完整的、有模式的神经系统。这被称为神经诱导，通常被想象为一个单一的信号事件，导致命运的转变。在这里，我们在非常精细的时间过程中，对小鸡有能力的外胚层暴露于组织者（原始条纹的尖端，亨森节点）后的事件进行了全面分析。我们使用转录组学和表观基因组学生成了一个由 175 个转录调节因子和 5614 个预测的它们之间的相互作用组成的基因调控网络，具有从最初暴露于信号到成熟神经板标记物表达的精细时间动态。通过原位杂交、单细胞 RNA 测序和报告基因检测，我们表明，对移植组织者的反应的基因调控层次结构与正常神经板发育的事件非常相似。该研究还提供了一个广泛的资源，包括预测的其他脊椎动物中增强子的保守性信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dbbc/10038663/7783d2df6564/elife-73189-fig1.jpg

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神经诱导的基因调控网络。

A gene regulatory network for neural induction.

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