Unveiling Molecular Mechanisms of Cadmium Tolerance and Accumulation in Sweet Sorghum: Role of SbYS1 and SbWRKY72 for Enhanced Phytoremediation
Cadmium (Cd) pollution poses significant risks to both plant growth and human health. The industrialization boom in China has led to widespread Cd contamination in agricultural soils, necessitating effective remediation strategies. Phytoremediation, particularly employing hyperaccumulators like sweet sorghum, presents an economical and eco-friendly approach. Sweet sorghum, known for its high biomass production and photosynthetic efficiency, has shown promise in Cd extraction from contaminated soils. However, its potential has been hindered by limited Cd uptake and translocation capacity. Researchers from the Chinese Academy of Sciences, China National Botanical Garden and University of Chinese Academy of Sciences investigated the role of a Yellow Stripe-Like (YSL) transporter, SbYS1, and its upstream transcription factor, SbWRKY72, in Cd tolerance and accumulation in sweet sorghum.
SbYS1, induced by Cd stress, is primarily expressed in roots and exhibits both plasma membrane and endoplasmic reticulum localization. Overexpression of SbYS1 in Arabidopsis enhances Cd tolerance and reduces Cd accumulation in roots and shoots, suggesting its involvement in Cd transportation. Furthermore, SbWRKY72 negatively regulates SbYS1 expression, as demonstrated in transgenic Arabidopsis lines overexpressing SbWRKY72, which exhibit increased sensitivity to Cd stress and higher Cd accumulation in roots. These findings give insight into the molecular mechanisms underlying Cd tolerance and accumulation in sweet sorghum, providing important information about developing strategies to enhance its phytoremediation capacity in Cd-contaminated soils through genetic manipulation of key genes like SbYS1 and SbWRKY72.
SorghumBase examples:
SbYS1 gene Sobic.004G299500 (SORBI_3004G299500, Sb04g033320) was picked up as an example to explore SorghumBase below:
Reference:
Jia W, Guo Z, Lv S, Lin K, Li Y. SbYS1 and SbWRKY72 regulate Cd tolerance and accumulation in sweet sorghum. Planta. 2024 Mar 27;259(5):100. PMID: 38536457.doi: 10.1007/s00425-024-04388-0. Read more
Unveiling Molecular Mechanisms of Cadmium Tolerance and Accumulation in Sweet Sorghum: Role of SbYS1 and SbWRKY72 for Enhanced Phytoremediation