GhVIM28, a negative regulator identified from VIM family genes, positively responds to salt stress in cotton

The VIM (belonged to E3 ubiquitin ligase) gene family is crucial for plant growth, development, and stress responses, yet their role in salt stress remains unclear. We analyzed phylogenetic relationships, chromosomal localization, conserved motifs, gene structure, cis-acting elements, and gene expre...

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Veröffentlicht in:BMC plant biology 2024-05, Vol.24 (1), p.432-432, Article 432
Hauptverfasser: Yang, Zhining, Lu, Xuke, Wang, Ning, Mei, Zhengding, Fan, Yapeng, Zhang, Menghao, Wang, Lidong, Sun, Yuping, Chen, Xiao, Huang, Hui, Meng, Yuan, Liu, Mengyue, Han, Mingge, Chen, Wenhua, Zhang, Xinrui, Yu, Xin, Chen, Xiugui, Wang, Shuai, Wang, Junjuan, Zhao, Lanjie, Guo, Lixue, Peng, Fanjia, Feng, Keyun, Gao, Wenwei, Ye, Wuwei
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Sprache:eng
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Zusammenfassung:The VIM (belonged to E3 ubiquitin ligase) gene family is crucial for plant growth, development, and stress responses, yet their role in salt stress remains unclear. We analyzed phylogenetic relationships, chromosomal localization, conserved motifs, gene structure, cis-acting elements, and gene expression patterns of the VIM gene family in four cotton varieties. Our findings reveal 29, 29, 17, and 14 members in Gossypium hirsutum (G.hirsutum), Gossypium barbadense (G.barbadense), Gossypium arboreum (G.arboreum), and Gossypium raimondii (G. raimondii), respectively, indicating the maturity and evolution of this gene family. motifs among GhVIMs genes were observed, along with the presence of stress-responsive, hormone-responsive, and growth-related elements in their promoter regions. Gene expression analysis showed varying patterns and tissue specificity of GhVIMs genes under abiotic stress. Silencing GhVIM28 via virus-induced gene silencing revealed its role as a salt-tolerant negative regulator. This work reveals a mechanism by which the VIM gene family in response to salt stress in cotton, identifying a potential negative regulator, GhVIM28, which could be targeted for enhancing salt tolerance in cotton. The objective of this study was to explore the evolutionary relationship of the VIM gene family and its potential function in salt stress tolerance, and provide important genetic resources for salt tolerance breeding of cotton.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-024-05156-8