Shape and geometry control of the Drosophila tracheal tubule

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Shape and geometry control of the Drosophila tracheal tubule

机译：果蝇气管小管的形状和几何控制

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For efficient respiration, tubular airways must be constructed with an optimal diameter and length for the dimensions of the body. In Drosophila, the growth of embryonic tracheal tubules proceeds in two dimensions, by axial elongation and diameter expansion. The growth forces in each dimension are controlled by distinct genetic programs and cellular mechanisms. Recent studies reveal that the apical cortex and the apical extracellular matrix filling the luminal space are essential for the generation, balancing, and equilibrium of these growth forces. We here discuss the mechanical properties and architecture of the apical cortex and extracellular matrix, and their crucial roles in the tissue-level coordination of tubule shape and geometry.

机译：为了有效的呼吸，管状气道的直径和长度必须与身体尺寸相匹配。在果蝇中，胚胎气管小管的生长在两个维度上进行，即轴向伸长和直径扩张。每个维度的生长力都由不同的基因程序和细胞机制控制。最近的研究表明，顶端皮质和充满管腔空间的顶端细胞外基质对于这些生长力的产生、平衡和平衡至关重要。我们在此讨论顶叶皮质和细胞外基质的力学性质和结构，以及它们在组织水平协调小管形状和几何形状中的关键作用。

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《Development Growth and Differentiation》 |2017年第1期|共8页
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正文语种 eng
中图分类生物科学;
关键词
extracellular matrix; size control; tubulogenesis; viscoelasticity;

机译：细胞外基质;尺寸控制;小管状发生;粘弹性;

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机译：高自由度可变几何桁架的形状控制

Shape and geometry control of the Drosophila tracheal tubule

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