MeSPL9 attenuates drought resistance by regulating JA signaling and protectant metabolite contents in cassava
文献类型: 外文期刊
第一作者: Li, Shuxia
作者: Li, Shuxia;Li, Zhibo;Dong, Shiman;Yu, Xiaoling;Zhao, Pingjuan;Liao, Wenbin;Peng, Ming;Cheng, Zhihao;Yu, Xiang
作者机构:
期刊名称:THEORETICAL AND APPLIED GENETICS ( 影响因子:5.699; 五年影响因子:5.565 )
ISSN: 0040-5752
年卷期:
页码:
收录情况: SCI
摘要: Key message Analysis of drought-related genes in cassava shows the involvement of MeSPL9 in drought stress tolerance and overexpression of a dominant-negative form of this gene demonstrates its negative roles in drought stress resistance. Drought stress severely impairs crop yield and is considered a primary threat to food security worldwide. Although the SQUAMOSA promoter binding protein-like 9 (SPL9) gene participates extensively in numerous developmental processes and in plant response to abiotic stimuli, its role and regulatory pathway in cassava (Manihot esculenta) response to the drought condition remain elusive. In the current study, we show that cassava SPL9 (MeSPL9) plays negative roles in drought stress resistance. MeSPL9 expression was strongly repressed by drought treatment. Overexpression of a dominant-negative form of miR156-resistant MeSPL9, rMeSPL9-SRDX, in which a 12-amino acid repressor sequence was fused to rMeSPL9 at the C terminus, conferred drought tolerance without penalizing overall growth. rMeSPL9-SRDX-overexpressing lines not only exhibited increased osmoprotectant metabolites including proline and anthocyanin, but also accumulated more endogenous jasmonic acid (JA) and soluble sugars. Transcriptomic and real-time PCR analysis suggested that differentially expressed genes were involved in sugar or JA biosynthesis, signaling, and metabolism in transgenic cassava under drought conditions. Exogenous application of JA further confirmed that JA conferred improved drought resistance and promoted stomatal closure in cassava leaves. Taken together, our findings suggest that MeSPL9 affects drought resistance by modulating protectant metabolite levels and JA signaling, which have substantial implications for engineering drought tolerant crops.
分类号:
- 相关文献
作者其他论文 更多>>
-
The HTIRDB: A resource containing a transcriptional atlas for 105 different tissues from each of seven species of domestic herbivore
作者:Ding, Luoyang;Wang, Yifan;Wu, Feifan;Zhen, Yongkang;Blache, Dominique;Li, Chuang;Yu, Xiang;Zhang, Zhenbin;Chen, Yifei;Xue, Chun;Gu, Yalan;Huang, Weidong;Yan, Lu;Wei, Wenjun;Wang, Yusu;Zhang, Jinying;Zhang, Yifan;Sun, Yiquan;Wang, Mengzhi;Wang, Yifan;Zhang, Linna;Huang, Yiming;Zhen, Yongkang;Chen, Ning;Wang, Limin;Zhou, Ping;Yang, Qing-Yong;Wang, Mengzhi;Zhang, Linna;Luo, Chengfang;Huang, Yiming;Liu, Dongxu;Yang, Zhiquan;Huang, Xiaoyan;Dai, Rui;Wang, Shengbo;Zhao, Xinle;Wang, Haodong;Yang, Qing-Yong;Song, Li;Pool, Kelsey;Blache, Dominique;Maloney, Shane K.
关键词:
-
Capsid protein of turnip crinkle virus suppresses antiviral RNA decay by degrading Arabidopsis Dcp1 via the ubiquitination pathway (vol 121, e70075, 2025)
作者:Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ren, Yanli;Ruan, Mengbin;Zhang, Xiuchun;Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ren, Yanli;Ruan, Mengbin;Zhang, Xiuchun;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Ren, Yanli;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun
关键词:
-
SsSGP1 peptide regulates chlorophyll degradation in sugarcane through ethylene and peroxidase pathways
作者:Wu, Kunxin;Zuang, Hongwei;Wang, Honglin;Nuo, Jia;Huang, Fuqiang;Shi, Tiantian;Liao, Wenbin;Liao, Wenbin;Wu, Kunxin;Zuang, Hongwei;Wang, Honglin;Nuo, Jia;Huang, Fuqiang;Shi, Tiantian;Liao, Wenbin
关键词:Sugarcane; Peptide; Chlorophyll; Ethylene
-
Machine learning-enabled flexible luminescent sensor for non-destructive mapping antibiotics distribution on seafood
作者:Wu, Lidong;Li, Yuanxin;Qin, Haiyang;Zhao, Jinxue;Zhai, Xuejing;Li, Peiyi;Wu, Lidong;Li, Yuanxin;Qin, Haiyang;Zhao, Jinxue;Zhai, Xuejing;Li, Peiyi;Wu, Lidong;Li, Yuanxin;Zhai, Xuejing;Li, Peiyi;Li, Zhibo;Wu, Lidong;Qin, Haiyang;Zhao, Jinxue;Li, Peiyi;Xiang, Xueping
关键词:Luminescent hydrogel sensors; Machine learning; Non-destructive identification; Concentration-distribution patterns; Tetracycline
-
MeWRKY30, a cassava stress-responsive WRKY transcription factor, confers drought resistance to transgenic Arabidopsis
作者:Zhu, Yufei;Li, Zhibo;Wang, Wenjuan;Liu, Xiaojie;Xie, Qiuxian;Yu, Xiaoling;Zhang, Xiuchun;Li, Shuxia;Ruan, Mengbin;Zhu, Yufei;Li, Zhibo;Wang, Wenjuan;Liu, Xiaojie
关键词:Cassava;
Arabidopsis ; Drought tolerance; WRKY transcription factor; MeWRKY30 -
Interacting MeZFP29 and MebZIPW regulates MeNRT2.2 from cassava responding to nitrate signaling
作者:Li, Wenbin;Yu, Xiaoling;Zhao, Pingjuan;Li, Shuxia;Zou, Liangping;Zhang, Xiuchun;Li, Jiuhui;Ruan, Mengbin;Li, Wenbin;Zhao, Pingjuan;Zou, Liangping;Li, Jiuhui;Ruan, Mengbin;Yu, Xiaoling;Li, Shuxia;Zhang, Xiuchun;Ruan, Mengbin
关键词:Cassava; High-affinity nitrate transporter 2.2; Nitrate-responsive
cis -element; MeZFP29; MebZIPW; Regulatory mechanism -
Capsid protein of turnip crinkle virus suppresses antiviral RNA decay by degrading Arabidopsis Dcp1 via ubiquitination pathway
作者:Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun;Wu, Kunxin;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Ren, Yanli
关键词:turnip crinkle virus; viral suppressor of RNA decay; antiviral; decapping 1; protein degradation
