AI Article Synopsis
- Castor plants are vital for industrial use, but drought causes oxidative stress that affects their growth and yields, prompting researchers to investigate the underlying mechanisms through various analyses.
- The study found that drought stress impacted photosynthesis and activated different antioxidant enzymes over time, with significant changes in gene expression related to antioxidant activity and multiple metabolic pathways.
- The research highlights important antioxidant genes and mechanisms, contributing to a better understanding of how castor plants cope with drought and offering insights for future breeding strategies.
Article Abstract
Background: Castor is an important industrial raw material. Drought-induced oxidative stress leads to slow growth and decreased yields in castor. However, the mechanisms of drought-induced oxidative stress in castor remain unclear. Therefore, in this study, physiological, biochemical, and RNA-seq analyses were conducted on the roots of castor plants under PEG-6000 stress for 3 d and 7 d followed by 4 d of hydration.
Results: The photosynthetic rate of castor leaves was inhibited under PEG-6000 stress for 3 and 7 d. Biochemical analysis of castor roots stressed for 3 d and 7 d, and rehydrated for 4 d revealed that the activities of APX and CAT were highest after only 3 d of stress, whereas the activities of POD, GR, and SOD peaked after 7 d of stress. RNA-seq analysis revealed 2926, 1507, and 111 differentially expressed genes (DEGs) in the roots of castor plants under PEG-6000 stress for 3 d and 7 d and after 4 d of rehydration, respectively. GO analysis of the DEGs indicated significant enrichment in antioxidant activity. Furthermore, KEGG enrichment analysis of the DEGs revealed significantly enriched metabolic pathways, including glutathione metabolism, fatty acid metabolism, and plant hormone signal transduction. WGCNA identified the core genes PP2C39 and GA2ox4 in the navajowhite1 module, which was upregulated under PEG-6000 stress. On the basis of these results, we propose a model for the response to drought-induced oxidative stress in castor.
Conclusions: This study provides valuable antioxidant gene resources, deepening our understanding of antioxidant regulation and paving the way for further molecular breeding of castor plants.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11484386 | PMC |
| http://dx.doi.org/10.1186/s12870-024-05691-4 | DOI Listing |
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