植物细胞机械生物学：整体大于部分之和。

Plant cell mechanobiology: Greater than the sum of its parts.

机构信息

Department of Biology and Center for Engineering Mechanobiology, Washington University in St Louis, St Louis, Missouri, 63130, USA.

出版信息

Plant Cell. 2022 Jan 20;34(1):129-145. doi: 10.1093/plcell/koab230.

DOI:10.1093/plcell/koab230

PMID:34524447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8773992/

Abstract

The ability to sense and respond to physical forces is critical for the proper function of cells, tissues, and organisms across the evolutionary tree. Plants sense gravity, osmotic conditions, pathogen invasion, wind, and the presence of barriers in the soil, and dynamically integrate internal and external stimuli during every stage of growth and development. While the field of plant mechanobiology is growing, much is still poorly understood-including the interplay between mechanical and biochemical information at the single-cell level. In this review, we provide an overview of the mechanical properties of three main components of the plant cell and the mechanoperceptive pathways that link them, with an emphasis on areas of complexity and interaction. We discuss the concept of mechanical homeostasis, or "mechanostasis," and examine the ways in which cellular structures and pathways serve to maintain it. We argue that viewing mechanics and mechanotransduction as emergent properties of the plant cell can be a useful conceptual framework for synthesizing current knowledge and driving future research.

摘要

感知和响应物理力的能力对于整个进化树中细胞、组织和生物体的正常功能至关重要。植物可以感知重力、渗透条件、病原体入侵、风以及土壤中障碍物的存在，并在生长和发育的每个阶段动态整合内部和外部刺激。虽然植物机械生物学领域正在发展，但仍有很多方面理解不足——包括单细胞水平上机械和生化信息之间的相互作用。在这篇综述中，我们概述了植物细胞的三个主要成分的机械特性以及将它们联系起来的机械感知途径，重点讨论了复杂和相互作用的领域。我们讨论了机械动态平衡或“机械稳定性”的概念，并研究了细胞结构和途径用于维持它的方式。我们认为，将力学和力学转导视为植物细胞的涌现特性，可以作为综合当前知识和推动未来研究的有用概念框架。

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