Mouse gastrulation: Coordination of tissue patterning, specification and diversification of cell fate

IF 2.6 Q2 Medicine Mechanisms of Development Pub Date : 2020-09-01 DOI:10.1016/j.mod.2020.103617

Evan S. Bardot, Anna-Katerina Hadjantonakis

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引用次数: 59

Abstract

During mouse embryonic development a mass of pluripotent epiblast tissue is transformed during gastrulation to generate the three definitive germ layers: endoderm, mesoderm, and ectoderm. During gastrulation, a spatiotemporally controlled sequence of events results in the generation of organ progenitors and positions them in a stereotypical fashion throughout the embryo. Key to the correct specification and differentiation of these cell fates is the establishment of an axial coordinate system along with the integration of multiple signals by individual epiblast cells to produce distinct outcomes. These signaling domains evolve as the anterior-posterior axis is established and the embryo grows in size. Gastrulation is initiated at the posteriorly positioned primitive streak, from which nascent mesoderm and endoderm progenitors ingress and begin to diversify. Advances in technology have facilitated the elaboration of landmark findings that originally described the epiblast fate map and signaling pathways required to execute those fates. Here we will discuss the current state of the field and reflect on how our understanding has shifted in recent years.

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小鼠原肠胚形成:组织模式的协调，细胞命运的规范和多样化

在小鼠胚胎发育过程中，大量多能性外胚层组织在原肠胚形成过程中转化为三个确定的胚层:内胚层、中胚层和外胚层。在原肠胚形成过程中，一个时空控制的事件序列导致器官祖细胞的产生，并在整个胚胎中以一种刻板的方式定位它们。这些细胞命运的正确规范和分化的关键是轴向坐标系统的建立，以及单个外胚层细胞对多种信号的整合，以产生不同的结果。这些信号域随着前后轴的建立和胚胎的生长而进化。原肠胚形成开始于位于后面的原始条纹，新生的中胚层和内胚层祖细胞从这里进入并开始分化。技术的进步促进了具有里程碑意义的发现的阐述，这些发现最初描述了外胚层命运图和执行这些命运所需的信号通路。在这里，我们将讨论该领域的现状，并反思近年来我们的理解是如何变化的。

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来源期刊

Mechanisms of Development 生物-发育生物学

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

12.4 weeks

期刊介绍： Mechanisms of Development is an international journal covering the areas of cell biology and developmental biology. In addition to publishing work at the interphase of these two disciplines, we also publish work that is purely cell biology as well as classical developmental biology. Mechanisms of Development will consider papers in any area of cell biology or developmental biology, in any model system like animals and plants, using a variety of approaches, such as cellular, biomechanical, molecular, quantitative, computational and theoretical biology. Areas of particular interest include: Cell and tissue morphogenesis Cell adhesion and migration Cell shape and polarity Biomechanics Theoretical modelling of cell and developmental biology Quantitative biology Stem cell biology Cell differentiation Cell proliferation and cell death Evo-Devo Membrane traffic Metabolic regulation Organ and organoid development Regeneration Mechanisms of Development does not publish descriptive studies of gene expression patterns and molecular screens; for submission of such studies see Gene Expression Patterns.

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