Micro-mechanical approaches to characterize tip growth: Insights into root hair elasto-viscoplastic properties

根毛 刚度 膨胀压力 材料科学 弹性模量 产量(工程) 弹性(物理) 变形(气象学) 复合材料 模数 杨氏模量 圆柱 屈曲 悬臂梁 词根(语言学) 抗弯刚度 刚度(电磁) 压力(语言学) 机械 生物系统 张力(地质) 切线模量 压缩(物理) 抗弯刚度 生物物理学 工作(物理) 表皮(毛发)
作者
Thomas Alline,Léa Cascaro,David Pereira,Atef Asnacios
出处
期刊:European Physical Journal E [Springer Science+Business Media]
卷期号:49 (1-2): 11-11
标识
DOI:10.1140/epje/s10189-025-00546-8
摘要

Root hairs are outgrowths of the epidermal cells of plant roots. They increase the root's exchange surface with the soil and provide it with good anchorage in the soil. Root hairs are an emblematic model of apical growth, a process also used by yeasts and hyphae to invade their environment. From a mechanical perspective, the root hair is considered as an elastic cylinder under pressure, closed by a dome that behaves like a yield fluid. We introduce here two innovative mechanical setups and protocols to characterize the mechanical properties of single growing root hairs in Arabidopsis thaliana. In the first setup, root hairs grow against an elastic obstacle until buckling. By measuring the critical buckling force, we determine the surface modulus and estimate the Young's modulus of the cell wall, which aligns with previous measurements. Using a 1D elasto-viscoplastic model of root hair growth, we assess the excess pressure beyond the yield threshold (the driver of tip growth) and estimate the axial stiffness of the root hair, reflecting its elastic resistance to compression. For the second protocol, we designed a setup where a single root hair grows against a cantilever with variable stiffness, a technique adapted from our earlier work on rigidity sensing by animal cells. This method provides an independent estimate of the root hair's axial stiffness, confirming our initial findings and suggesting that this stiffness primarily involves tip compression and depends mainly on turgor pressure, at least within the low deformation regime explored.
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