Changes in the lipid composition of Peltigera canina at an elevated temperature

J. Valitova, V. Khabibrakhmanova, O. P. Gurianov, V. L. Uvaeva, A. F. Khairullina, D. F. Rakhmatullina, E. I. Galeeva, T. Trifonova, L. V. Viktorova, F. Minibayeva
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Abstract

Extremophile organisms can survive under extreme conditions through tolerance mechanisms. Such organisms include lichens, which are symbiotic associations of fungi and algae and/or cyanobacteria. Among other factors, the high stress tolerance of lichens can be attributed to their ability to synthesize a wide range of metabolites, including chemically diverse lipid compounds. Despite their obvious relevance, the biochemical mechanisms of stress tolerance in lichens that are mediated by changes in the lipid profile remain understudied. Peltigerous lichens constitute a separate division of lichens characterized by high growth rates and metabolic activity indices. Taking into account the temperate climate in which these lichens grow, it can be assumed that they may be highly sensitive to temperature fluctuations. These factors led to the choice of Peltigera canina, epigeic lichen, as the subject matter of this study. The present work examined stress-induced changes in the redox status of P. canina, as well as changes in its lipid composition at an elevated temperature (40 °С). The exposure of hydrated lichen thalli to an unfavorable temperature led to an increase in the level of hydrogen peroxide, phenoloxidase activity, and lipid peroxidation, which constitutes an important part of stress response in lichen. The stress-induced changes in the redox status of lichen thalli stimulated an increase in lipophilic antioxidant agents: a dramatic increase in the level of α-tocopherol and an increase in carotenoids, specifically β-carotene. Thus, the accumulation of lipophilic antioxidants constitutes an important part of the lipid-mediated stress response of P. canina to temperature elevation.
高温条件下 Peltigera canina 的脂质成分变化
嗜极生物可通过耐受机制在极端条件下生存。这类生物包括地衣,它们是真菌与藻类和/或蓝藻的共生体。除其他因素外,地衣的高度耐压性可归因于其合成多种代谢物的能力,其中包括化学性质多样的脂类化合物。尽管地衣耐受压力的生化机制与脂质谱的变化有明显的相关性,但对其研究仍然不足。盾皮地衣是地衣的一个独立分支,其特点是生长速度快、代谢活动指数高。考虑到这些地衣生长在温带气候中,可以认为它们对温度波动非常敏感。考虑到这些因素,本研究选择了表皮地衣(Peltigera canina)作为研究对象。本研究考察了在温度升高(40 ° С)条件下,地衣氧化还原状态的应激变化及其脂质成分的变化。将水合苔藓暴露在不利的温度下会导致过氧化氢水平、酚氧化酶活性和脂质过氧化反应的增加,而这是地衣应激反应的重要组成部分。胁迫引起的地衣氧化还原状态的变化刺激了亲脂性抗氧化剂的增加:α-生育酚水平急剧上升,类胡萝卜素(特别是β-胡萝卜素)增加。因此,亲脂性抗氧化剂的积累是狗尾草脂质介导的对温度升高的应激反应的重要组成部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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