Physical models of notochord cell packing reveal how tension ratios determine morphometry

IF 3.9 4区 生物学 Q4 Biochemistry, Genetics and Molecular Biology Cells and Development Pub Date : 2023-03-01 DOI:10.1016/j.cdev.2023.203825
Evan J. Curcio, Sharon R. Lubkin
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引用次数: 1

Abstract

The physical and geometric aspects of notochords are investigated using a model of finite-length notochords, with interior vacuolated cells arranged in two common packing configurations, and sheath modeled as homogeneous and thin. The key ratios governing packing patterns and eccentricity are number of cells per unit length λ and cell tension ratio Γ. By analyzing simulations that vary Γ and total number of cells N, we find that eccentricity, λ, and internal pressure approach consistent asymptotic values away from the tapering ends, as N increases. The length of the tapering ends is quantified as a function of Γ and pattern. Formulas are derived for geometric ratios, pressure, and energy as functions of Γ and pattern. These observations on the relationship between mechanics, geometry, and pattern provide a framework for further work which may provide insight into the roles of mechanosensing and pressure-volume regulation in the notochord.

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脊索细胞堆积的物理模型揭示了张力比如何决定形态
使用有限长度脊索模型研究了脊索的物理和几何方面,其中内部空泡细胞以两种常见的填充配置排列,鞘层建模为均质和薄的。控制填充模式和偏心率的关键比率是每单位长度的单元数λ和单元张力比Γ。通过分析改变Γ和单元总数N的模拟,我们发现随着N的增加,离心率、λ和内压在远离锥形端的地方接近一致的渐近值。锥形末端的长度被量化为Γ和图案的函数。导出了几何比、压力和能量作为Γ和模式函数的公式。这些对力学、几何和模式之间关系的观察为进一步的工作提供了一个框架,可以深入了解机械感应和压力-体积调节在脊索中的作用。
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来源期刊
Cells and Development
Cells and Development Biochemistry, Genetics and Molecular Biology-Developmental Biology
CiteScore
2.90
自引率
0.00%
发文量
33
审稿时长
41 days
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