Expansin 介导的发育和适应反应：细胞壁生物力学问题？

Quantitative Plant Biology Pub Date : 2022-06-13 eCollection Date: 2022-01-01 DOI:10.1017/qpb.2022.6

Marketa Samalova, Evelina Gahurova, Jan Hejatko

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摘要

细胞壁（CW）的生物力学特性对植物的许多发育和适应性反应非常重要。研究表明，膨胀素能通过一种称为 "细胞壁松动 "的过程，介导 pH 依赖性的细胞壁扩大。在此，我们简要概述了扩张素在植物和非植物物种中的出现、其结构和作用模式，包括激素调节的 CW 酸化在控制扩张素活性中的作用。我们描绘了历史上以及最近的化武模型，讨论了扩张素在化武生物力学中的作用，并探讨了扩张素调控的化武松弛在细胞伸长和新原基形成中的发育重要性。我们总结了迄今为止发表的有关扩张素在非生物胁迫响应中的作用的数据，以及有关扩张素介导的非生物胁迫抗性的可能机制的证据和假说。最后，我们强调了扩张素研究的未来可能方向。

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Expansin-mediated developmental and adaptive responses: A matter of cell wall biomechanics?

Biomechanical properties of the cell wall (CW) are important for many developmental and adaptive responses in plants. Expansins were shown to mediate pH-dependent CW enlargement via a process called CW loosening. Here, we provide a brief overview of expansin occurrence in plant and non-plant species, their structure and mode of action including the role of hormone-regulated CW acidification in the control of expansin activity. We depict the historical as well as recent CW models, discuss the role of expansins in the CW biomechanics and address the developmental importance of expansin-regulated CW loosening in cell elongation and new primordia formation. We summarise the data published so far on the role of expansins in the abiotic stress response as well as the rather scarce evidence and hypotheses on the possible mechanisms underlying expansin-mediated abiotic stress resistance. Finally, we wrap it up by highlighting possible future directions in expansin research.

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Quantitative Plant Biology

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