果蝇气管形态发生：解决基本管道问题的复杂细胞机制

Drosophila tracheal morphogenesis: intricate cellular solutions to basic plumbing problems.

作者信息

Uv Anne, Cantera Rafael, Samakovlis Christos

机构信息

Department of Medical Biochemistry, University of Gothenburg, S-405 30 Gothenburg, Sweden.

出版信息

Trends Cell Biol. 2003 Jun;13(6):301-9. doi: 10.1016/s0962-8924(03)00083-7.

DOI:10.1016/s0962-8924(03)00083-7

PMID:12791296

Abstract

The cellular architecture of tubular organs suggests striking similarities in the mechanisms of tubulogenesis between species. The formation of the Drosophila respiratory organ (trachea) highlights the basic principles of branch patterning and tube growth that generate a highly elaborate but stereotyped epithelial tubular network. Oriented cell migration, changes in cell shape, selective growth of the apical cell membrane and intracellular lumen formation are essential events in this process. These morphogenetic processes build four structurally distinct classes of tubes that facilitate optimal airflow and gas exchange with target tissues. The molecular players in these plots include attractant and repellent signals, differentiation factors that cause a high diversity of cell fates within the epithelium, and determinants of tube formation and dimensions.

摘要

管状器官的细胞结构表明不同物种间在肾小管发生机制上存在显著相似性。果蝇呼吸器官（气管）的形成突出了分支模式和管道生长的基本原理，这些原理产生了一个高度复杂但刻板的上皮管状网络。定向细胞迁移、细胞形状变化、顶端细胞膜的选择性生长和细胞内管腔形成是这一过程中的关键事件。这些形态发生过程构建了四类结构不同的管道，有助于与靶组织实现最佳气流和气体交换。这些过程中的分子参与者包括吸引和排斥信号、导致上皮内细胞命运高度多样化的分化因子，以及管道形成和尺寸的决定因素。

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果蝇气管形态发生：解决基本管道问题的复杂细胞机制

Drosophila tracheal morphogenesis: intricate cellular solutions to basic plumbing problems.

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