The impact of mechanical stress on anatomy, morphology, and gene expression in Urtica dioica L.

IF 3.6 3区 生物学 Q1 PLANT SCIENCES
Planta Pub Date : 2024-07-06 DOI:10.1007/s00425-024-04477-0
Urszula Zajączkowska, Dominika Dmitruk, Joanna Sekulska-Nalewajko, Jarosław Gocławski, Alicja Dołkin-Lewko, Barbara Łotocka
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引用次数: 0

Abstract

Main conclusion: Mechanical stress induces distinct anatomical, molecular, and morphological changes in Urtica dioica, affecting trichome development, gene expression, and leaf morphology under controlled conditions The experiments were performed on common nettle, a widely known plant characterized by high variability of leaf morphology and responsiveness to mechanical touch. A specially constructed experimental device was used to study the impact of mechanical stress on Urtica dioica plants under strictly controlled parameters of the mechanical stimulus (touching) and environment in the growth chamber. The general anatomical structure of the plants that were touched was similar to that of control plants, but the shape of the internodes' cross section was different. Stress-treated plants showed a distinct four-ribbed structure. However, as the internodes progressed, the shape gradually approached a rectangular form. The epidermis of control plants included stinging, glandular and simple setulose trichomes, but plants that were touched had no stinging trichomes, and setulose trichomes accumulated more callose. Cell wall lignification occurred in the older internodes of the control plants compared to stress-treated ones. Gene analysis revealed upregulation of the expression of the UdTCH1 gene in touched plants compared to control plants. Conversely, the expression of UdERF4 and UdTCH4 was downregulated in stressed plants. These data indicate that the nettle's response to mechanical stress reaches the level of regulatory networks of gene expression. Image analysis revealed reduced leaf area, increased asymmetry and altered contours in touched leaves, especially in advanced growth stages, compared to control plants. Our results indicate that mechanical stress triggers various anatomical, molecular, and morphological changes in nettle; however, further interdisciplinary research is needed to better understand the underlying physiological mechanisms.

Abstract Image

机械应力对荨麻解剖学、形态学和基因表达的影响
主要结论在受控条件下,机械应力会诱导荨麻发生明显的解剖学、分子和形态学变化,影响毛状体的发育、基因表达和叶片形态 实验是在荨麻上进行的,荨麻是一种广为人知的植物,其特点是叶片形态和对机械触碰的反应性变化很大。在严格控制机械刺激(触摸)参数和生长室环境的条件下,使用专门建造的实验装置来研究机械应力对荨麻植物的影响。被触动植物的总体解剖结构与对照植物相似,但节间横截面的形状不同。受胁迫处理的植株表现出明显的四肋结构。然而,随着节间的延长,形状逐渐接近长方形。对照植株的表皮包括刺毛、腺毛和简单的刚毛,但接触过的植株没有刺毛,刚毛则积累了更多的胼胝质。与胁迫处理的植株相比,对照植株较老的节间出现了细胞壁木质化。基因分析显示,与对照植株相比,受胁迫植株的 UdTCH1 基因表达上调。相反,受胁迫植物中 UdERF4 和 UdTCH4 的表达下调。这些数据表明,荨麻对机械胁迫的反应达到了基因表达调控网络的水平。图像分析表明,与对照植物相比,受胁迫叶片的叶面积减小,不对称程度增加,轮廓改变,尤其是在生长后期。我们的研究结果表明,机械应力会引发荨麻的各种解剖、分子和形态变化;然而,要更好地了解其潜在的生理机制,还需要进一步的跨学科研究。
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来源期刊
Planta
Planta 生物-植物科学
CiteScore
7.20
自引率
2.30%
发文量
217
审稿时长
2.3 months
期刊介绍: Planta publishes timely and substantial articles on all aspects of plant biology. We welcome original research papers on any plant species. Areas of interest include biochemistry, bioenergy, biotechnology, cell biology, development, ecological and environmental physiology, growth, metabolism, morphogenesis, molecular biology, new methods, physiology, plant-microbe interactions, structural biology, and systems biology.
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