Mild osmotic stress offers photoprotection in Chlamydomonas reinhardtii under high light

光防护 莱茵衣藻 PEG比率 生物物理学 光合作用 渗透性休克 非光化学猝灭 光系统II 聚乙二醇 叶绿素 化学 光合反应中心 猝灭(荧光) 生物 生物化学 植物 突变体 基因 财务 经济 物理 荧光 量子力学
作者
Jerome Xavier Gunasekaran,Ranay Mohan Yadav,Pavithra Ramachandran,S.K. Sharma,Rajagopal Subramanyam
出处
期刊:Plant Physiology and Biochemistry [Elsevier BV]
卷期号:216: 109050-109050
标识
DOI:10.1016/j.plaphy.2024.109050
摘要

The exposure of autotrophs to high light intensities significantly impacts their photosynthetic performance. When combined with unpredictable climate changes, the lethality of these effects is exacerbated and, often surpassing the organisms' threshold for tolerance. In this regard, our study centres on examining the mitigating effects of mild osmotic stress induced by 2% Polyethylene Glycol (PEG) in conjunction with high-light conditions, using Chlamydomonas reinhardtii as a model system. Cells were cultivated under low PEG-induced osmotic stress at various light intensities, and their responses were analyzed through biochemical and biophysical approaches. Remarkably, cells grown under lower PEG concentrations exhibited superior growth, increased biomass, and enhanced photosynthetic efficiency under high light compared to non-PEG-treated cells. Surprisingly, their non-photochemical quenching (NPQ) levels were lower, indicating the operation of a distinct photoprotective mechanism in PEG-grown samples. The PEG-grown cells demonstrated higher chlorophyll content but lower carotenoid content, supporting the NPQ data. Circular dichroism analysis suggested that the macro-organization of super-complexes was minimally disrupted in PEG-grown samples, even under high light. This was further supported by Blue native PAGE, which showed greater stability of the super-complexes in PEG-grown cells, implying heightened stability in pigment-protein interactions. Immunoblot analysis revealed minimal differences in core reaction center proteins between PEG-grown and non-PEG cells. Notably, this protective mechanism was absent in the cell wall-deficient mutant CC503. We propose that the partial photoprotection observed is attributed to the PEG shielding the cell wall. This result holds promise for enhancing algal biomass production under natural environmental conditions influenced by fluctuating light intensity.

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