Cloning and Function study of PsMYB2 transcription factor of Potentilla sericea under Cadmium Stress

IF 1 4区农林科学 Q3 AGRONOMY Canadian Journal of Plant Science Pub Date : 2023-01-05 DOI:10.1139/cjps-2022-0051

Bing Gao, Weifang Fan, Zhenghong Feng, Pengfei Gao, Jianhui Wu

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Abstract

In this study, PsMYB2 was successfully cloned by using cDNA from Potentilla sericea as a template, with which we constructed the plant overexpression vector pBI121-PsMYB2-GFP and then the vector was transferred into Arabidopsis thaliana wild-type plants. We studied the gene function using real-time quantitative PCR and performed a preliminary characterization and analysis of the function of PsMYB2 under abiotic stresses. This study observed that under cadmium stress, the gene expression of PsMYB2 gene in roots, stems and leaves was up to 3-6 times higher than the control. The germination rate of transgenic Arabidopsis thaliana T3 generation seeds reached more than 95%. The O2·-, H2O2 and MDA contents of the transgenic Potentilla sericea plant lines were increased but lower than those of the wild-type strain. The SOD, POD, and CAT activities were increased in both wild-type and transgenic strains, and the transgenic strains showed higher enzyme activities than the wild-type. We concluded that PsMYB2 could improve plant resistance to cadmium, which provides a theoretical basis for using transgenic plants to remediate cadmium-contaminated soil and for sustainable land use.

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镉胁迫下蚕豆PsMYB2转录因子的克隆及功能研究

本研究以蚕丝Potentilla sericea cDNA为模板成功克隆了PsMYB2，构建了植物过表达载体pBI121-PsMYB2-GFP，并将该载体转入拟南芥野生型植物中。我们利用实时定量PCR技术研究了该基因的功能，并对PsMYB2在非生物胁迫下的功能进行了初步的表征和分析。本研究发现，在镉胁迫下，PsMYB2基因在根、茎和叶中的表达量比对照高3-6倍。转基因拟南芥T3代种子发芽率达95%以上。转基因白麻品系的O2·-、H2O2和MDA含量均高于野生品系，但低于野生品系。野生型和转基因菌株的SOD、POD和CAT活性均升高，且转基因菌株的酶活性高于野生型。结论PsMYB2可提高植物对镉的抗性，为利用转基因植物修复镉污染土壤和实现土地可持续利用提供理论依据。

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来源期刊

Canadian Journal of Plant Science 生物-农艺学

CiteScore

1.90

自引率

8.30%

发文量

审稿时长

1 months

期刊介绍： Published since 1957, the Canadian Journal of Plant Science is a bimonthly journal that contains new research on all aspects of plant science relevant to continental climate agriculture, including plant production and management (grain, forage, industrial, and alternative crops), horticulture (fruit, vegetable, ornamental, greenhouse, and alternative crops), and pest management (entomology, plant pathology, and weed science). Cross-disciplinary research in the application of technology, plant breeding, genetics, physiology, biotechnology, microbiology, soil management, economics, meteorology, post-harvest biology, and plant production systems is also published. Research that makes a significant contribution to the advancement of knowledge of crop, horticulture, and weed sciences (e.g., drought or stress resistance), but not directly applicable to the environmental regions of Canadian agriculture, may also be considered. The Journal also publishes reviews, letters to the editor, the abstracts of technical papers presented at the meetings of the sponsoring societies, and occasionally conference proceedings.