Overexpression of cotton GhNAC072 gene enhances drought and salt stress tolerance in transgenic Arabidopsis

Teame Gereziher Mehari; Yuqing Hou; Yanchao Xu; Muhammad Jawad Umer; Margaret Linyerera Shiraku; Yuhong Wang; Heng Wang; Renhai Peng; Yangyang Wei; Xiaoyan Cai; Zhongli Zhou; Fang Liu

doi:10.1186/s12864-022-08876-z

BMC Genomics (Sep 2022)

Overexpression of cotton GhNAC072 gene enhances drought and salt stress tolerance in transgenic Arabidopsis

Teame Gereziher Mehari,
Yuqing Hou,
Yanchao Xu,
Muhammad Jawad Umer,
Margaret Linyerera Shiraku,
Yuhong Wang,
Heng Wang,
Renhai Peng,
Yangyang Wei,
Xiaoyan Cai,
Zhongli Zhou,
Fang Liu

Affiliations

Teame Gereziher Mehari: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Yuqing Hou: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Yanchao Xu: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Muhammad Jawad Umer: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Margaret Linyerera Shiraku: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Yuhong Wang: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Heng Wang: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Renhai Peng: Anyang Institute of Technology
Yangyang Wei: Anyang Institute of Technology
Xiaoyan Cai: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Zhongli Zhou: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences
Fang Liu: State Key Laboratory of Cotton Biology, Cotton Institute of the Chinese Academy of Agricultural Sciences

DOI: https://doi.org/10.1186/s12864-022-08876-z
Journal volume & issue: Vol. 23, no. 1
pp. 1 – 17

Abstract

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Abstract Background Crops face several environmental stresses (biotic and abiotic), thus resulting in severe yield losses. Around the globe abiotic stresses are the main contributors of plant damages, primarily drought and salinity. Many genes and transcription factors are involved in abiotic and biotic stress responses. NAC TF (Transcription Factors) improves tolerance to stresses by controlling the physiological and enzyme activities of crops. Results In current research, GhNAC072 a highly upregulated TF in RNA-Seq was identified as a hub gene in the co-expression network analysis (WGCNA). This gene was transformed to Arabidopsis thaliana to confirm its potential role in drought and salt stress tolerance. Significant variations were observed in the morpho-physiological traits with high relative leaf water contents, chlorophyll contents, higher germination and longer root lengths of the overexpressed lines and low excised leaf loss and ion leakage as compared to the wildtype plants. Besides, overexpressed lines have higher amounts of antioxidants and low oxidant enzyme activities than the wildtype during the period of stress exposure. Conclusions In summary, the above analysis showed that GhNAC072 might be the true candidate involved in boosting tolerance mechanisms under drought and salinity stress.

Published in BMC Genomics

ISSN: 1471-2164 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Biology (General): Genetics
Website: http://bmcgenomics.biomedcentral.com

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