(上皮单层在压缩条件下的(非)屈曲力学

Chandraniva Guha Ray, Pierre A. Haas
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引用次数: 0

摘要

当细胞膜在发育过程中折叠时,其顶端或基底表面会收缩,细胞形状接近于表面消失的几何奇点。在这里,我们揭示了这种几何奇异性对上皮单层最小顶点模型中组织折叠的机械后果。在模拟上皮在压缩下的屈曲和相应连续模型的数值解时,我们发现了一个 "非屈曲 "分岔:在大压缩量下,屈曲幅度随着压缩量的增加而减小。通过对连续方程的渐进求解,我们发现这一分岔是随着上皮的大幅变硬而出现的。因此,我们的研究结果为果蝇头沟等组织褶皱在头带伸展过程中吸收压缩应力提供了力学基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
(Un)buckling mechanics of epithelial monolayers under compression
When cell sheets fold during development, their apical or basal surfaces constrict and cell shapes approach the geometric singularity in which these surfaces vanish. Here, we reveal the mechanical consequences of this geometric singularity for tissue folding in a minimal vertex model of an epithelial monolayer. In simulations of the buckling of the epithelium under compression and numerical solutions of the corresponding continuum model, we discover an "unbuckling" bifurcation: At large compression, the buckling amplitude can decrease with increasing compression. By asymptotic solution of the continuum equations, we reveal that this bifurcation comes with a large stiffening of the epithelium. Our results thus provide the mechanical basis for absorption of compressive stresses by tissue folds such as the cephalic furrow during germband extension in Drosophila.
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