College of Resource, Sichuan Agricultural University, 211 Huimin Road, Chengdu, Sichuan 611130, China.
College of Resource, Sichuan Agricultural University, 211 Huimin Road, Chengdu, Sichuan 611130, China.
J Hazard Mater. 2021 Sep 15;418:126379. doi: 10.1016/j.jhazmat.2021.126379. Epub 2021 Jun 10.
A better understanding of the mechanisms controlling cadmium (Cd) accumulation in rice will benefit the development of strategies to minimize Cd accumulation in grains. A Cd-safe rice line designated D62B accumulated less than 0.2 mg Cd kg in brown rice due to its strong capacity for Cd retention in roots. Here transcriptomic was used to clarify the underlying mechanisms of Cd response in roots of D62B compared with a high Cd-accumulating line (Wujin4B). There were 777, 1058 differentially expressed genes (DEGs) in D62B and Wujin4B, respectively, when exposed to Cd. The functions of DEGs were clearly line-specific. Cell wall biosynthesis responded more intensively to Cd stress in D62B, facilitating Cd restriction. Meanwhile, more glutathione (GSH) and phytochelatins synthesized in D62B with the upregulation of sulphur and GSH metabolism. Besides, membrane proteins played critical roles in Cd response in D62B, whereas 18 terms involved in regulation were enriched in Wujin4B. Exogenous GSH further induced the expression of genes related to GSH metabolism and cell wall biosynthesis, leading to the retention of more Cd. Great responsiveness of cell wall biosynthesis and GSH metabolism could be considered the most important specific mechanisms for Cd retention in the roots of Cd-safe rice line.
更好地理解控制水稻镉(Cd)积累的机制将有助于制定策略,最大限度地减少稻米中镉的积累。由于其在根部对镉的强烈保留能力,一种名为 D62B 的镉安全水稻品系积累的糙米中镉含量低于 0.2mg/kg。在这里,通过转录组学来阐明 D62B 根系对 Cd 响应的潜在机制,与高镉积累系(武粳 4B)相比。在 Cd 暴露下,D62B 和武粳 4B 分别有 777 和 1058 个差异表达基因(DEGs)。DEGs 的功能明显具有系特异性。细胞壁生物合成对 D62B 中的 Cd 胁迫反应更为强烈,有助于限制 Cd。同时,D62B 中合成了更多的谷胱甘肽(GSH)和植物螯合肽,伴随着硫和 GSH 代谢的上调。此外,膜蛋白在 D62B 中的 Cd 响应中发挥关键作用,而在武粳 4B 中富集了 18 个与调节相关的术语。外源性 GSH 进一步诱导与 GSH 代谢和细胞壁生物合成相关的基因表达,导致更多 Cd 的保留。细胞壁生物合成和 GSH 代谢的高度响应可被认为是 Cd 安全水稻系根部保留 Cd 的最重要的特定机制。
