posted on 2023-07-13, 19:09authored byYuxin Qiao, Yun Lv, Zhao Jie Chen, Jintong Liu, Hong Yang, Nan Zhang
Bentazone (BNTZ) is a selective and efficient herbicide
used in
crop production worldwide. However, the persistence of BNTZ residues
in the environment has led to their increasing accumulation in farmland
and crops, posing a high risk to human health. To evaluate its impact
on crop growth and environmental safety, a comprehensive study was
conducted on BNTZ toxicity, metabolic mechanism, and resultant pathways
in rice. The rice growth was compromised to the treatment with BNTZ
at 0.2–0.8 mg/L (529.95–1060.05 g a.i./ha), while the
activities of enzymes including SOD, POD, CAT, GST, GT, and CYP450
were elevated under BNTZ stress. A genome-wide RNA-sequencing (RNA-Seq)
was performed to dissect the variation of transcriptomes and metabolic
mechanisms in rice exposed to BNTZ. The degradative pathways of BNTZ
in rice are involved in glycosylation, hydrolysis, acetylation, and
conjugation processes catalyzed by the enzymes. Our data provided
evidence that helps understand the BNTZ metabolic and detoxic mechanisms.