拟南芥合子中半球状顶端生长的粘弹塑性变形模型。

A viscoelastic-plastic deformation model of hemisphere-like tip growth in Arabidopsis zygotes.

作者信息

Kang Zichen, Nonoyama Tomonobu, Ishimoto Yukitaka, Matsumoto Hikari, Nakagawa Sakumi, Ueda Minako, Tsugawa Satoru

机构信息

Department of Mechanical Engineering, Faculty of Systems Science and Technology, Akita Prefectural University, Yurihonjo, Japan.

Faculty of Science and Engineering, Saga, Japan.

出版信息

Quant Plant Biol. 2024 Dec 12;5:e13. doi: 10.1017/qpb.2024.13. eCollection 2024.

DOI:10.1017/qpb.2024.13

PMID:39777034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11706690/

Abstract

Plant zygote cells exhibit tip growth, producing a hemisphere-like tip. To understand how this hemisphere-like tip shape is formed, we revisited a viscoelastic-plastic deformation model that enabled us to simultaneously evaluate the shape, stress and strain of Arabidopsis () zygote cells undergoing tip growth. Altering the spatial distribution of cell wall extensibility revealed that cosine-type distribution and growth in a normal direction to the surface create a stable hemisphere-like tip shape. Assuming these as constraints for cell elongation, we determined the best-fitting parameters for turgor pressure and wall extensibility to computationally reconstruct an elongating zygote that retained its hemisphere-like shape using only cell contour data, leading to the formulation of non-dimensional growth parameters. Our computational results demonstrate the different morphologies in elongating zygotes through effective non-dimensional parameters.

摘要

植物合子细胞表现出顶端生长，形成半球状顶端。为了理解这种半球状顶端形状是如何形成的，我们重新审视了一个粘弹塑性变形模型，该模型使我们能够同时评估拟南芥合子细胞在顶端生长过程中的形状、应力和应变。改变细胞壁伸展性的空间分布表明，余弦型分布以及沿表面法线方向的生长会形成稳定的半球状顶端形状。将这些作为细胞伸长的限制条件，我们确定了膨压和细胞壁伸展性的最佳拟合参数，以便仅使用细胞轮廓数据通过计算重建一个保持半球状形状的伸长合子，从而得出无量纲生长参数。我们的计算结果通过有效的无量纲参数展示了伸长合子中的不同形态。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e0b4/11706690/245ae8250d15/S2632882824000134_figAb.jpg

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拟南芥合子中半球状顶端生长的粘弹塑性变形模型。

A viscoelastic-plastic deformation model of hemisphere-like tip growth in Arabidopsis zygotes.

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