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鸟类胚胎原肠胚形成过程中的细胞活动。

Cellular processes driving gastrulation in the avian embryo.

机构信息

Division of Cell and Developmental Biology, School of Life Sciences, University of Dundee, Dundee DD1 5EH, UK.

Division of Cell and Developmental Biology, School of Life Sciences, University of Dundee, Dundee DD1 5EH, UK.

出版信息

Mech Dev. 2020 Sep;163:103624. doi: 10.1016/j.mod.2020.103624. Epub 2020 Jun 17.

DOI:10.1016/j.mod.2020.103624
PMID:32562871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7511600/
Abstract

Gastrulation consists in the dramatic reorganisation of the epiblast, a one-cell thick epithelial sheet, into a multilayered embryo. In chick, the formation of the internal layers requires the generation of a macroscopic convection-like flow, which involves up to 50,000 epithelial cells in the epiblast. These cell movements locate the mesendoderm precursors into the midline of the epiblast to form the primitive streak. There they acquire a mesenchymal phenotype, ingress into the embryo and migrate outward to populate the inner embryonic layers. This review covers what is currently understood about how cell behaviours ultimately cause these morphogenetic events and how they are regulated. We discuss 1) how the biochemical patterning of the embryo before gastrulation creates compartments of differential cell behaviours, 2) how the global epithelial flows arise from the coordinated actions of individual cells, 3) how the cells delaminate individually from the epiblast during the ingression, and 4) how cells move after the ingression following stereotypical migration routes. We conclude by exploring new technical advances that will facilitate future research in the chick model system.

摘要

原肠作用包括剧烈的重新组织化,即将单层的外胚层细胞转变为多层的胚胎。在鸡胚中,内胚层的形成需要产生宏观的对流样流动,涉及多达 50000 个外胚层上皮细胞。这些细胞运动将中胚层前体定位到外胚层的中线上,形成原始条纹。在那里,它们获得间充质表型,进入胚胎并向外迁移,以填充内部胚胎层。这篇综述涵盖了目前对细胞行为如何最终导致这些形态发生事件以及它们是如何被调控的理解。我们讨论了 1)原肠作用前胚胎的生化模式如何产生不同细胞行为的隔室,2)全球上皮流动如何产生于单个细胞的协调作用,3)细胞如何在进入时从外胚层单独离解,以及 4)细胞在进入后如何沿着典型的迁移途径移动。我们最后探讨了新的技术进展,这些进展将有助于鸡胚模型系统的未来研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/08632d3a8da8/gr5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/3e73e1d989f3/gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/50c8041e6c91/gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/5043d69de27a/gr3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/23967959d284/gr4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/08632d3a8da8/gr5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/3e73e1d989f3/gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/50c8041e6c91/gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/5043d69de27a/gr3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/23967959d284/gr4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e33e/7511600/08632d3a8da8/gr5.jpg

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