The impact of physiologically relevant temperatures on physical properties of thylakoid membranes: a molecular dynamics study

IF 2.1 4区 生物学 Q2 PLANT SCIENCES
B. FEHÉR, I.K. VOETS, G. NAGY
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引用次数: 0

Abstract

Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the membranes are primarily composed of proteins, their photosynthetic function is strongly influenced by the lipid constituents. Here we characterize, with molecular dynamics (MD) simulations, lipid bilayers with compositions representative of plant thylakoid membranes. We determine, in a wide range of temperatures, the physical parameters of the model membranes which are relevant for the photosynthetic function. We found a marked impact of temperature on membrane permeability due to a combination of increased compressibility and curvature of the membrane at elevated temperatures. With increasing temperatures, we observed increasingly smeared transmembrane density profiles of the membrane forming lipid headgroups predicting increased membrane flexibility. The diffusion coefficient of the lipids increased with temperature without apparent specificity for lipid species. Instead of a comprehensive experimental dataset in the relevant temperature range, we quantitatively compared and validated our MD results with MD simulations on a dipalmitoylphosphatidylcholine model system.
生理相关温度对类囊体膜物理特性的影响:分子动力学研究
类囊体膜是具有独特脂质组成的能量转换膜。虽然膜主要由蛋白质组成,但其光合作用受到脂质成分的强烈影响。在这里,我们用分子动力学(MD)模拟表征了具有代表植物类囊体膜组成的脂质双层。我们确定,在广泛的温度范围内,模型膜的物理参数,这是有关的光合作用功能。我们发现温度对膜渗透性的显著影响是由于在高温下膜的可压缩性和曲率的增加。随着温度的升高,我们观察到越来越多的膜形成脂质头群的跨膜密度分布预示着膜柔韧性的增加。脂质扩散系数随温度升高而升高,但对脂质种类没有明显的特异性。我们没有在相关温度范围内进行全面的实验数据集,而是在双棕榈酰磷脂酰胆碱模型系统上定量地比较和验证了我们的MD结果。
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来源期刊
Photosynthetica
Photosynthetica 生物-植物科学
CiteScore
5.60
自引率
7.40%
发文量
55
审稿时长
3.8 months
期刊介绍: Photosynthetica publishes original scientific papers and brief communications, reviews on specialized topics, book reviews and announcements and reports covering wide range of photosynthesis research or research including photosynthetic parameters of both experimental and theoretical nature and dealing with physiology, biophysics, biochemistry, molecular biology on one side and leaf optics, stress physiology and ecology of photosynthesis on the other side. The language of journal is English (British or American). Papers should not be published or under consideration for publication elsewhere.
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