植物细胞的钾挤出:从紧急阀门演变为长距离运输的驱动力。

IF 9.4 1区 生物学 Q1 Agricultural and Biological Sciences
New Phytologist Pub Date : 2024-10-27 DOI:10.1111/nph.20207
Dorsaf Hmidi, Florence Muraya, Cécile Fizames, Anne-Aliénor Véry, M Rob G Roelfsema
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引用次数: 0

摘要

积累养分的能力是生物的标志,植物进化出了高效的养分运输系统,尤其是在吸收钾(K+)方面。然而,植物也发展出了能够快速挤出 K+和阴离子的机制。K+ 与阴离子的联合释放可能是一种古老的挤压系统,因为在与陆生植物关系密切的夏科植物中就有这种系统。我们推测,离子挤出机制是作为紧急阀门发展起来的,它使植物细胞能够迅速降低其张力,防止细胞破裂。在进化的后期,种子植物将这一系统用于各种反应,如气孔关闭、长距离应力波、叶枕掉落和木质部血管加载。我们讨论了参与植物离子挤压功能的运输蛋白的分子性质,并描述了它们在进化过程中获得的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Potassium extrusion by plant cells: evolution from an emergency valve to a driver of long-distance transport.

The ability to accumulate nutrients is a hallmark for living creatures and plants evolved highly effective nutrient transport systems, especially for the uptake of potassium (K+). However, plants also developed mechanisms that enable the rapid extrusion of K+ in combination with anions. The combined release of K+ and anions is probably an ancient extrusion system, as it is found in the Characeae that are closely related to land plants. We postulate that the ion extrusion mechanisms have developed as an emergency valve, which enabled plant cells to rapidly reduce their turgor, and prevent them from bursting. Later in evolution, seed plants adapted this system for various responses, such as the closure of stomata, long-distance stress waves, dropping of leaves by pulvini, and loading of xylem vessels. We discuss the molecular nature of the transport proteins that are involved in ion extrusion-based functions of plants and describe the functions that they obtained during evolution.

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来源期刊
New Phytologist
New Phytologist PLANT SCIENCES-
CiteScore
17.60
自引率
5.30%
发文量
728
审稿时长
1 months
期刊介绍: New Phytologist is a leading publication that showcases exceptional and groundbreaking research in plant science and its practical applications. With a focus on five distinct sections - Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology - the journal covers a wide array of topics ranging from cellular processes to the impact of global environmental changes. We encourage the use of interdisciplinary approaches, and our content is structured to reflect this. Our journal acknowledges the diverse techniques employed in plant science, including molecular and cell biology, functional genomics, modeling, and system-based approaches, across various subfields.
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