Effect of copper ions on the composition of phytosterols of the vacuolar membrane of Beta vulgaris L.

E. V. Spiridonona, I. Kapustina, V. Gurina, N.  V. Semyonova, N. Ozolina
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Abstract

The study set out to investigate the effect of different concentrations of copper ions on the composition of phytosterols of the vacuolar membrane (tonoplast) of beetroot (Beta vulgaris L.). To characterise the stress caused by the action of copper ions, a conductometric study of the permeability of cell membranes and the level of lipid peroxidation was carried out. The results demonstrate an increase in these indicators in beetroot tissues. Among tonoplast phytosterols, β-sitosterol, stigmasterol, campesterol, and cholesterol were studied. In cell membranes, these phytosterols perform a structural function, contributing to lipid microdomain formation, influencing plant growth and development, and participating in plant responses to stress. The study of the effect of copper ions on tonoplast phytosterols showed most of them to be occupied by the free form. In the presence of 100 μM copper, a significant increase in campesterol content was detected. The ratio of stigmasterol/β-sitosterol and 24-methyl-/ ethylsterol, which may influence the stress response of plants, is an important indicator of plant membrane health. The observed increases in the ratios of stigmasterol/β-sitosterol and 24-methyl-/ethylsterols can be explained in terms of mechanisms for regulating the functioning of the tonoplast under stress caused by copper ions. Thus, the obtained results may indicate the participation of cell membranes, including tonoplast, in the mechanisms of adaptation of beetroot tissue cells to stress caused by copper ions.
铜离子对蚕豆液泡膜植物甾醇成分的影响
该研究旨在调查不同浓度的铜离子对甜菜(Beta vulgaris L.)液泡膜(营养体)植物甾醇组成的影响。为了描述铜离子作用造成的压力,对细胞膜的渗透性和脂质过氧化水平进行了电导测量研究。结果表明,甜菜根组织中的这些指标都有所增加。在营养体植物甾醇中,研究了β-谷甾醇、豆甾醇、玉米甾醇和胆固醇。在细胞膜中,这些植物甾醇具有结构功能,有助于脂质微域的形成,影响植物的生长和发育,并参与植物对胁迫的反应。铜离子对营养体植物甾醇影响的研究表明,大部分植物甾醇以游离形式存在。在 100 μM 铜存在的情况下,检测到弯曲甾醇含量显著增加。赤霉醇/β-谷甾醇和 24-甲基/乙基甾醇的比率可能会影响植物的胁迫反应,是植物膜健康的一个重要指标。所观察到的赤霉醇/β-谷甾醇和 24-甲基/乙基甾醇比率的增加,可以从铜离子胁迫下调控调质器功能的机制来解释。因此,所获得的结果可能表明,细胞膜(包括色调体)参与了甜菜根组织细胞对铜离子引起的压力的适应机制。
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