不同距离设置下拟南芥根系向斜性的研究

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-05-05 DOI:10.1080/15592324.2024.2348917
Xingyu Yan, Yongshun Liang, Felipe Yamashita, František Baluška
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引用次数: 0

摘要

在生物和非生物压力下,植物可以启动保护和防御机制。它们的根系自然生长在土壤中,但当它们在土壤表层遇到阳光时,可能会远离光源,寻求黑暗。在这里,我们研究了根的趋光行为,这种行为促进了根的适应性和生存。植物的谷氨酸样受体(GLRs)在感知和响应信号方面发挥作用,但它们在根的趋光性中的作用尚不清楚。众所周知,光诱导的向性受辅酶分布的影响,主要由根尖的辅酶外排蛋白(PIN 蛋白)决定。然而,PIN 蛋白在根的向斜性中的作用尚未得到研究。为了更好地了解根的向斜性及其与根和光之间的距离的关系,我们在幼苗和黑暗之间设置了五种距离,以研究根弯曲趋势的变化。我们比较了拟南芥幼苗不同表达系(atglr3.7 ko、AtGLR3.7 OE 和 pin2 基因敲除)根向斜行为的差异,以了解它们的功能。我们的研究表明,随着根与黑暗之间距离的增加,根的正向向斜性明显减弱。我们的研究结果突出表明,GLR3.7 和 PIN2 参与了根的向斜作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Arabidopsis root skototropism with different distance settings.

Plants can activate protective and defense mechanisms under biotic and abiotic stresses. Their roots naturally grow in the soil, but when they encounter sunlight in the top-soil layers, they may move away from the light source to seek darkness. Here we investigate the skototropic behavior of roots, which promotes their fitness and survival. Glutamate-like receptors (GLRs) of plants play roles in sensing and responding to signals, but their role in root skototropism is not yet understood. Light-induced tropisms are known to be affected by auxin distribution, mainly determined by auxin efflux proteins (PIN proteins) at the root tip. However, the role of PIN proteins in root skototropism has not been investigated yet. To better understand root skototropism and its connection to the distance between roots and light, we established five distance settings between seedlings and darkness to investigate the variations in root bending tendencies. We compared differences in root skototropic behavior across different expression lines of Arabidopsis thaliana seedlings (atglr3.7 ko, AtGLR3.7 OE, and pin2 knockout) to comprehend their functions. Our research shows that as the distance between roots and darkness increases, the root's positive skototropism noticeably weakens. Our findings highlight the involvement of GLR3.7 and PIN2 in root skototropism.

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