拟南芥
三硝基甲苯
植物修复
转基因
转基因作物
野生型
植物
拟南芥
转录组
生物
生物量(生态学)
污染物
化学
基因
生物化学
基因表达
突变体
农学
污染
有机化学
爆炸物
生态学
作者
Han Wang,Kunlong Su,Meifeng Liu,Yuchen Liu,Zhenying Wu,Chunxiang Fu
摘要
Abstract Phytoremediation is a promising technology for removing the high‐toxic explosive 2,4,6‐trinitrotoluene (TNT) pollutant from the environment. Mining dominant genes is the key research direction of this technology. Most previous studies have focused on the detoxification of TNT rather than plants' TNT tolerance. Here, we conducted a transcriptomic analysis of wild type Arabidopsis plants under TNT stress and found that the Arabidopsis cytochrome P450 gene CYP81D11 was significantly induced in TNT‐treated plants. Under TNT stress, the root length was approximately 1.4 times longer in CYP81D11‐ overexpressing transgenic plants than in wild type plants. The half‐removal time for TNT was much shorter in CYP81D11‐ overexpressing transgenic plants (1.1 days) than in wild type plants (t 1/2 = 2.2 day). In addition, metabolic analysis showed no difference in metabolites in transgenic plants compared to wild type plants. These results suggest that the high TNT uptake rates of CYP81D11‐ overexpressing transgenic plants were most likely due to increased tolerance and biomass rather than TNT degradation. However, CYP81D11‐ overexpressing plants were not more tolerant to osmotic stresses, such as salt or drought. Taken together, our results indicate that CYP81D11 is a promising target for producing bioengineered plants with high TNT removing capability.
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