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The inhibition and recovery mechanisms of the diatom <i>Phaeodactylum tricornutum</i> in response to high light stress – A study combining physiological and transcriptional analysis

Chengxiang Kan, Yirong Zhao, Yirong Zhao, Kai‐Ming Sun, Xuexi Tang, Yan Zhao, Yan Zhao

2023Journal of Phycology13 citationsDOI

Abstract

) were elucidated. The population growth was inhibited in the first 24 h and started to recover from 48 h. At 24 h, photoinhibition was exhibited as the changes of PSII photosynthetic parameters and decrease in cellular pigments, corresponding to the downregulation of genes encoding light-harvesting complex and pigments synthesis. Changes in those photosynthetic parameters and genes were kept until 96 h, indicating that the decrease of light absorption abilities might be one strategy for photoacclimation. In the meanwhile, we observed elevated cellular ROS levels, dead cells proportions, and upregulation of genes encoding antioxidant materials and proteasome pathway at 24 h. Those stress-related parameters and genes recovered to the controls at 96 h, indicating a stable intracellular environment after photoacclimation. Finally, genes involving carbon metabolisms were upregulated from 24 to 96 h, which ensured the energy supply for keeping high base and nucleotide excision repair abilities, leading to the recovery of cell cycle progression. We concluded that P. tricornutum could overcome photoinhibition by decreasing light-harvesting abilities, enhancing carbon metabolisms, activating anti-oxidative functions, and elevating repair abilities. The parameters of light harvesting, carbon metabolisms, and repair processes were responsible for the recovery phase, which could be considered long-term adaptive strategies for diatoms under high light stress.

Topics & Concepts

Phaeodactylum tricornutumPhotoinhibitionBiologyPhotosynthesisDownregulation and upregulationOxidative stressProteasomeBotanyPopulationCell biologyGenePhotosystem IIBiochemistryDiatomDemographySociologyAlgal biology and biofuel productionMicrobial Community Ecology and PhysiologyPhotosynthetic Processes and Mechanisms