Unravelling mechanisms of drought tolerance in a soybean cultivar (Daewonkong roots): insights into integrative transcriptomic and metabolite analyses
Yo-Han Yoo, Jinsil Yeo, Doheon Choi, Ye-Jin Son, Hyangyeon Jeong, Sangjun Park, Yeon Ju An, Girim Park, Eunsoo Lee, Mi-Suk Seo, Ju Sung Im, Soo-Kwon Park, Ki-Hong Jung, Woo-Jong Hong

TL;DR
This study explores how drought affects soybean roots by analyzing gene and metabolite changes, revealing how drought tolerance is linked to antioxidants and stress-related genes.
Contribution
The study provides new insights into root-specific drought responses and the role of isoflavones in antioxidant defense in soybean.
Findings
Drought stress in soybean roots alters gene expression, shifting metabolism from growth to stress acclimation.
The drought-tolerant cultivar PI 471938 accumulates more isoflavones and shows higher antioxidant activity than Daewonkong.
Stress-responsive genes like GmMYB14 and GmWRKY12 are highly expressed in drought-tolerant soybean cultivars.
Abstract
Soybean (Glycine max L.), a major food crop in Korea, is highly vulnerable to drought, particularly under rain-fed cultivation. Although several transcriptomic studies have examined drought-responsive pathways in soybean leaves, research on root-specific responses and their association with isoflavone-mediated antioxidant defense remains limited. The Korean cultivar Daewonkong, which is widely cultivated but sensitive to drought, presents a useful candidate for investigating the molecular and metabolic mechanisms of stress susceptibility. RNA sequencing of Daewonkong roots under controlled and drought-stressed conditions identified 1,348 upregulated and 2,835 downregulated genes. Kyoto Encyclopedia of Genes and Genomes and MapMan analyses revealed enrichment of galactose, nitrogen, and glutathione metabolism among the upregulated genes, whereas cell wall, lipid, phenylpropanoid, and…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsPlant Stress Responses and Tolerance · Plant Gene Expression Analysis · Plant Molecular Biology Research
