哺乳动物的液泡:早期胚胎发生不可缺少的亚细胞结构。

Bioarchitecture Pub Date : 2013-01-01 DOI:10.4161/bioa.24126

Yoh Wada

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引用次数: 18

摘要

液泡是一种与细胞内消化有关的膜结合的亚细胞结构。与在植物和真菌中发现的大型“液泡”细胞器不同，动物细胞具有体积较小的溶酶体，并且富含与液泡中发现的酶相似的水解酶。在高度分化的哺乳动物组织中，如胚胎内脏内胚层和吸收上皮，经常观察到大的空泡结构。液泡/溶酶体具有保守的生物发生机制，它们处于内吞途径的末端。最近对哺乳动物同源基因Vam/Vps的遗传学研究表明，液泡/溶酶体的动力学通过调节各种分子信号事件，对哺乳动物组织分化和模式形成具有重要意义。

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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Vacuoles in mammals: a subcellular structure indispensable for early embryogenesis.

A vacuole is a membrane-bound subcellular structure involved in intracellular digestion. Instead of the large "vacuolar" organelles that are found in plants and fungi, animal cells possess lysosomes that are smaller in size and are enriched with hydrolytic enzymes similar to those found in the vacuoles. Large vacuolar structures are often observed in highly differentiated mammalian tissues such as embryonic visceral endoderm and absorbing epithelium. Vacuoles/lysosomes share a conserved mechanism of biogenesis, and they are at the terminal of the endocytic pathways, Recent genetic studies of the mammalian orthologs of Vam/Vps genes, which have essential functions for vacuole assembly, revealed that the dynamics of vacuoles/lysosomes are important for tissue differentiation and patterning through regulation of various molecular signaling events in mammals.

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Bioarchitecture

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