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- Title
miR397-LACs mediated cadmium stress tolerance in Arabidopsis thaliana.
- Authors
Ali, Shahid; Huang, Shili; Zhou, Jiajie; Bai, Yongsheng; Liu, Yang; Shi, Liyu; Liu, Shuai; Hu, Zhangli; Tang, Yulin
- Abstract
Cadmium (Cd) is a non-essential heavy metal, assimilated in plant tissue with other nutrients, disturbing the ions' homeostasis in plants. The plant develops different mechanisms to tolerate the hazardous environmental effects of Cd. Recently studies found different miRNAs that are involved in Cd stress. In the current study, miR397 mutant lines were constructed to explore the molecular mechanisms of miR397 underlying Cd tolerance. Compared with the genetically modified line of overexpressed miR397 (artificial miR397, amiR397), the lines of downregulated miR397 (Short Tandem Target Mimic miR397, STTM miR397) showed more substantial Cd tolerance with higher chlorophyll a & b, carotenoid and lignin content. ICP-OES revealed higher cell wall Cd and low total Cd levels in STTM miR397 than in the wild-type and amiR397 plants. Further, the STTM plants produced fewer reactive oxygen species (ROS) and lower activity of antioxidants enzymes (e.g., catalase [CAT], malondialdehyde [MDA]) compared with amiR397 and wild-type plants after stress, indicating that silencing the expression of miR397 can reduce oxidative damage. In addition, the different family transporters' gene expression was much higher in the amiR397 plants than in the wild type and STTM miRNA397. Our results suggest that miR397 plays a role in Cd tolerance in Arabidopsis thaliana. Overexpression of miR397 could decrease Cd tolerance in plants by regulating the expression of LAC 2/4/17, changing the lignin content, which may play an important role in inducing different stress-tolerant mechanisms and protecting the cell from a hazardous condition. This study provides a basis to elucidate the functions of miR397 and the Cd stress tolerance mechanism in Arabidopsis thaliana. Key message: The miR397 modified lines influence the lignin and Cd content in the plants. The amiR397 plants susceptible to Cd stress have less lignin and high Cd content than STTM miR397 plants, changing the underlying stress regulatory pathways.
- Subjects
ARABIDOPSIS thaliana; CADMIUM; GENE expression; HOMEOSTASIS; REACTIVE oxygen species; PLANT cells &; tissues; HEAVY metals
- Publication
Plant Molecular Biology, 2023, Vol 113, Issue 6, p415
- ISSN
0167-4412
- Publication type
Article
- DOI
10.1007/s11103-023-01369-x