| Literature DB >> 31300139 |
Yanyan Zhao1, Zhaoen Yang2, Yanpeng Ding3, Lisen Liu2, Xiao Han2, Jingjing Zhan2, Xi Wei2, Yangyang Diao2, Wenqiang Qin2, Peng Wang2, Peipei Liu3, Muhammad Sajjad2, Xianlong Zhang4, Xiaoyang Ge5.
Abstract
MYB family genes act as important regulators modulating the response to abiotic stress in plants. However, much less is known about MYB proteins in cotton. Here, we found that a cotton MYB gene, GhMYB73, was induced by NaCl and abscisic acid (ABA). Silencing GhMYB73 expression in cotton increased sensitivity to salt stress. The cotyledon greening rate of Arabidopsis thaliana over-expressing GhMYB73 under NaCl or mannitol treatment was significantly enhanced during the seedling germination stage. What's more, several osmotic stress-induced genes, such as AtNHX1, AtSOS3 and AtP5CS1, were more highly induced in the over-expression lines than in wild type under salt treatment, supporting the hypothesis that GhMYB73 contributes to salinity tolerance by improving osmotic stress resistance. Arabidopsis lines over-expressing GhMYB73 had superior germination and cotyledon greening under ABA treatment, and some abiotic stress-induced genes involved in ABA pathways (AtPYL8, AtABF3, AtRD29B and AtABI5), had increased transcription levels under salt-stress conditions in these lines. Furthermore, we found that GhMYB73 physically interacts with GhPYL8 and AtPYL8, suggesting that GhMYB73 regulates ABA signaling during salinity stress response. Taken together, over-expression of GhMYB73 significantly increases tolerance to salt and ABA stress, indicating that it can potentially be used in transgenic technology approaches to improve cotton salt tolerance.Entities:
Keywords: GhMYB73; Gossypium hirsutum; Osmotic tolerance; Salt stress
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Year: 2019 PMID: 31300139 DOI: 10.1016/j.plantsci.2019.05.021
Source DB: PubMed Journal: Plant Sci ISSN: 0168-9452 Impact factor: 4.729