Litcius/Paper detail

Acetylated Proteomics of UV-B Stress-Responsive in Photosystem II of Rhododendron chrysanthum

Meiqi Liu, Qi Sun, Kun Cao, Hongwei Xu, Xiaofu Zhou

2023Cells20 citationsDOIOpen Access PDF

Abstract

Rhododendron chrysanthum (Rhododendron chrysanthum Pall.), an alpine plant, has developed UV-B resistance mechanisms and has grown to be an important plant resource with the responsive capacity of UV-B stress. Our study uses acetylated proteomics and proteome analysis, together with physiological measurement, to show the Rhododendron chrysanthum seedling’s reaction to UV-B stress. Following a 2-day, 8-h radiation therapy, 807 significantly altered proteins and 685 significantly altered acetylated proteins were discovered. Significantly altered proteins and acetylated proteins, according to COG analysis, were mostly engaged in post-translational modification, protein turnover, and chaperone under UV-B stress. It indicates that protein acetylation modification plays an important role in plant resistance to UV-B. The experimental results show that photosynthesis was inhibited under UV-B stress, but some photosynthetic proteins will undergo acetylation modification, which can alleviate the UV-B damage of plants to a certain extent. These results will serve as the basis for more research into the intricate molecular mechanisms underlying plant UV-B adaptation.

Topics & Concepts

AcetylationProteomePhotosynthesisPhotosystem IIProteomicsChemistryPosttranslational modificationPhotosystem IBiochemistryHsp90Chaperone (clinical)BotanyBiologyEnzymeHeat shock proteinGeneMedicinePathologyLight effects on plantsPolar Research and EcologyPhotosynthetic Processes and Mechanisms