TSPO-induced degradation of the ethylene receptor RhETR3 promotes salt tolerance in rose (Rosa hybrida)
文献类型: 外文期刊
第一作者: Zhao, Qingcui
作者: Zhao, Qingcui;Jing, Weikun;Li, Yonghong;Zhao, Qingcui;Jing, Weikun;Fu, Xijia;Yang, Ruoyun;Zhu, Chunyan;Zhao, Jiaxin;Ma, Nan;Zhao, Liangjun;Gao, Junping;Zhou, Xiaofeng;Choisy, Patrick
作者机构:
期刊名称:HORTICULTURE RESEARCH ( 影响因子:8.7; 五年影响因子:9.0 )
ISSN: 2662-6810
年卷期: 2024 年 11 卷 4 期
页码:
收录情况: SCI
摘要: The gaseous plant hormone ethylene regulates plant development, growth, and responses to stress. In particular, ethylene affects tolerance to salinity; however, the underlying mechanisms of ethylene signaling and salt tolerance are not fully understood. Here, we demonstrate that salt stress induces the degradation of the ethylene receptor ETHYLENE RESPONSE 3 (RhETR3) in rose (Rosa hybrid). Furthermore, the TspO/MBR (Tryptophan-rich sensory protein/mitochondrial benzodiazepine receptor) domain-containing membrane protein RhTSPO interacted with RhETR3 to promote its degradation in response to salt stress. Salt tolerance is enhanced in RhETR3-silenced rose plants but decreased in RhTSPO-silenced plants. The improved salt tolerance of RhETR3-silenced rose plants is partly due to the increased expression of ACC SYNTHASE1 (ACS1) and ACS2, which results in an increase in ethylene production, leading to the activation of ETHYLENE RESPONSE FACTOR98 (RhERF98) expression and, ultimately accelerating H2O2 scavenging under salinity conditions. Additionally, overexpression of RhETR3 increased the salt sensitivity of rose plants. Co-overexpression with RhTSPO alleviated this sensitivity. Together, our findings suggest that RhETR3 degradation is a key intersection hub for the ethylene signalling-mediated regulation of salt stress.
分类号:
- 相关文献
作者其他论文 更多>>
-
RhMYC2 controls petal size through synergistic regulation of jasmonic acid and cytokinin signaling in rose
作者:Gong, Feifei;Jing, Weikun;Jin, Weichan;Liu, Huwei;Zhang, Yuanfei;Wang, Rui;Wei, Yinghao;Tang, Kaiyang;Jiang, Yunhe;Gao, Junping;Sun, Xiaoming;Jing, Weikun;Sun, Xiaoming
关键词:jasmonic acid; cytokinin; RhMYC2; RhLOG3; cell division; petal growth
-
Multi-omics analysis reveals key regulatory defense pathways and genes involved in salt tolerance of rose plants
作者:Ren, Haoran;Yang, Wenjing;Shahid, Muhammad Owais;Liu, Yuming;Qiu, Xianhan;Ma, Nan;Gao, Junping;Zhou, Xiaofeng;Jing, Weikun;Choisy, Patrick;Xu, Tao
关键词:
-
Genome-wide association screening and verification of potential genes associated with defoliation rate induced by defoliant in upland cotton
作者:Pan, Zhenyuan;Zhou, Xiaofeng;Li, Juan;Wang, Xuwen;Yu, Yu;Pan, Zhenyuan;Wang, Runze;Ding, Shugen;Han, Peng;Wu, Yuanlong;Nie, Xinhui;Zhao, Zhansheng
关键词:Machine-harvested cotton; Defoliation rate; Genome-wide association study; Favorable allele
-
Evaluation of aphid resistance on different rose cultivars and transcriptome analysis in response to aphid infestation
作者:Dong, Wenqi;Sun, Lei;Jiao, Bo;Zhao, Pu;Ma, Chunhong;Zhou, Shuo;Dong, Wenqi;Gao, Junping;Zhou, Shuo
关键词:Aphid; Rose; Jasmonic acid; WRKY transcription factor
-
Exposure to nicotine regulates prostaglandin E2 secretion and autophagy of granulosa cells to retard follicular maturation in mammals
作者:Zhou, Xiaofeng;He, Yingting;Quan, Hongyan;Yang, Jinghao;Li, Shuo;Li, Jiaqi;Yuan, Xiaolong;Jiang, Yao;Jiang, Yao
关键词:Nicotine; Follicular maturation; Apoptosis; Autophagy; COX1
-
CmHY5 functions in apigenin biosynthesis by regulating flavone synthase II expression in chrysanthemum flowers
作者:Luo, Chang;Liu, Lei;Zhao, Jian;Xu, Yanjie;Gao, Junping;Hong, Bo;Ma, Chao;Liu, Hua;Chen, Dongliang;Cheng, Xi;Huang, Conglin
关键词:Apigenin; Chrysanthemum; Flavone synthase II; Flavonoid; Flower organ; ELONGATED HYPOCOTYL5 (HY5); Transcription factors
-
Ethylene controls cambium stem cell activity via promoting local auxin biosynthesis
作者:Yu, Qin;Cheng, Chenxia;Zhou, Xiaofeng;Yang, Chun;Zhou, Yingying;Gao, Junping;Ma, Nan;Cheng, Chenxia;Li, Yonghong;Hu, Yingchun;Soliman, Tarek M. A.;Zhang, Hao;Wang, Qigang;Wang, Huichun;Jiang, Cai-Zhong;Jiang, Cai-Zhong;Gan, Su-Sheng
关键词:auxin; cambium; ethylene; HD-ZIP I transcription factor; Rosa hybrida
