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Traits linked to natural variation of sulfur content in Arabidopsis thaliana

Abstract Sulfur (S) is an essential mineral nutrient for plant growth and development; it is important for primary and specialized plant metabolites that are crucial for biotic and abiotic interactions. Foliar S content varies up to 6-fold under a controlled environment, suggesting an adaptive value...

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Bibliographic Details
Published in:Journal of experimental botany 2024-02, Vol.75 (3), p.1036-1050
Main Authors: de Jager, Nicholas, Shukla, Varsa, Koprivova, Anna, Lyčka, Martin, Bilalli, Lorina, You, Yanrong, Zeier, Jürgen, Kopriva, Stanislav, Ristova, Daniela
Format: Article
Language:English
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Summary:Abstract Sulfur (S) is an essential mineral nutrient for plant growth and development; it is important for primary and specialized plant metabolites that are crucial for biotic and abiotic interactions. Foliar S content varies up to 6-fold under a controlled environment, suggesting an adaptive value under certain natural environmental conditions. However, a major quantitative regulator of S content in Arabidopsis thaliana has not been identified yet, pointing to the existence of either additional genetic factors controlling sulfate/S content or of many minor quantitative regulators. Here, we use overlapping information of two separate ionomics studies to select groups of accessions with low, mid, and high foliar S content. We quantify series of metabolites, including anions (sulfate, phosphate, and nitrate), thiols (cysteine and glutathione), and seven glucosinolates, gene expression of 20 genes, sulfate uptake, and three biotic traits. Our results suggest that S content is tightly connected with sulfate uptake, the concentration of sulfate and phosphate anions, and glucosinolate and glutathione synthesis. Additionally, our results indicate that the growth of pathogenic bacteria is enhanced in the A. thaliana accessions containing higher S in their leaves, suggesting a complex regulation between S homeostasis, primary and secondary metabolism, and biotic pressures. Biotic and abiotic environmental stressors trigger adaptations of sulfur homeostasis in A. thaliana leading to large variation in sulfur content in leaves of different accessions.
ISSN:0022-0957
1460-2431
1460-2431
DOI:10.1093/jxb/erad401