Calcium in plants: an important element of cell physiology and structure, signaling, and stress responses

IF 2.4 4区生物学 Q2 PLANT SCIENCES Acta Physiologiae Plantarum Pub Date : 2024-11-14 DOI:10.1007/s11738-024-03733-w

Agata Wdowiak, Anna Podgórska, Bożena Szal

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Abstract

Calcium ions (Ca²⁺) are absorbed from the soil by the root cells before being distributed throughout the plant. The transport of Ca²⁺ to aboveground parts relies on the movement of xylem, which is influenced by the transpiration rate of individual organs. The final distribution of Ca²⁺ in tissues and cells depends on the effective function of channels and transporters that facilitate Ca²⁺ movement through plasma and specific intracellular membranes. Local fluctuations in free Ca²⁺ concentrations serve as a mechanism to elicit cellular responses, characterized by distinct calcium signatures, or to enable long-distance signaling in a cell-to-cell network. The specificity of individual Ca²⁺ transport proteins is primarily determined through studies in plants with induced changes in the expression of these proteins. Concurrently, it is recognized that plant cells contain significant reserves of Ca²⁺ both in the labile and in the permanently bound states, which influences various aspects such as biomechanical properties or the defensive capabilities of the cells. The diverse roles of Ca²⁺ in plant cells highlight the importance of a thorough understanding of Ca²⁺ metabolism.

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植物中的钙：细胞生理和结构、信号传递和应激反应的重要元素

钙离子（Ca2+）由根细胞从土壤中吸收，然后再分布到整个植株。钙离子（Ca2+）向地上部分的运输依赖于木质部的运动，而木质部的运动又受各个器官蒸腾速率的影响。Ca2+ 在组织和细胞中的最终分布取决于促进 Ca2+ 通过质膜和特定细胞内膜的通道和转运体的有效功能。游离 Ca2+ 浓度的局部波动是引起细胞反应的一种机制，其特征是不同的钙信号，或在细胞间网络中实现远距离信号传递。单个 Ca2+ 转运蛋白的特异性主要是通过研究植物中这些蛋白表达的诱导变化来确定的。与此同时，人们认识到植物细胞中含有大量处于易溶态和永久结合态的 Ca2+，这对细胞的生物力学特性或防御能力等各个方面都有影响。Ca2+ 在植物细胞中的作用多种多样，这凸显了全面了解 Ca2+ 代谢的重要性。

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来源期刊

Acta Physiologiae Plantarum 生物-植物科学

CiteScore

5.10

自引率

3.80%

发文量

125

审稿时长

3.1 months

期刊介绍： Acta Physiologiae Plantarum is an international journal established in 1978 that publishes peer-reviewed articles on all aspects of plant physiology. The coverage ranges across this research field at various levels of biological organization, from relevant aspects in molecular and cell biology to biochemistry. The coverage is global in scope, offering articles of interest from experts around the world. The range of topics includes measuring effects of environmental pollution on crop species; analysis of genomic organization; effects of drought and climatic conditions on plants; studies of photosynthesis in ornamental plants, and more.