AI Article Synopsis
- Cadmium (Cd) pollution negatively affects plant growth and food safety, but elevated CO concentration (EC) may help reduce these adverse effects, especially in soybeans.
- Research showed that EC improves the weight of soybean roots and leaves, increases protective compounds, and enhances detoxification processes during Cd stress.
- The study identifies key genes involved in Cd transport and compartmentalization, suggesting that manipulating these genes could lead to the development of Cd-tolerant soybean varieties for future agricultural sustainability.
Article Abstract
The continuous accumulation of Cd has long-lasting detrimental effects on plant growth and food safety. Although elevated CO concentration (EC) has been reported to reduce Cd accumulation and toxicity in plants, evidence on the functions of elevated CO concentration and its mechanisms in the possible alleviation of Cd toxicity in soybean are limited. Here, we used physiological and biochemical methods together with transcriptomic comparison to explore the effects of EC on Cd-stressed soybean. Under Cd stress, EC significantly increased the weight of roots and leaves, promoted the accumulations of proline, soluble sugars, and flavonoid. In addition, the enhancement of GSH activity and GST gene expressions promoted Cd detoxification. These defensive mechanisms reduced the contents of Cd, MDA, and HO in soybean leaves. The up-regulation of genes encoding phytochelatin synthase, MTPs, NRAMP, and vacuoles protein storage might play vital roles in the transportation and compartmentalization process of Cd. The MAPK and some transcription factors such as bHLH, AP2/ERF, and WRKY showed changed expressions and might be engaged in mediation of stress response. These findings provide a boarder view on the regulatory mechanism of EC on Cd stress and provide numerous potential target genes for future engineering of Cd-tolerant cultivars in soybean breeding programs under climate changes scenarios.
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| http://dx.doi.org/10.1016/j.jhazmat.2023.130950 | DOI Listing |
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