DcERF109 regulates shoot branching by participating in strigolactone signal transduction in Dendrobium catenatum
文献类型: 外文期刊
第一作者: Han, Yuliang
作者: Han, Yuliang;Zhang, Juncheng;Zhang, Siqi;Wang, Huizhong;Chen, Tao;Cai, Maohong;Xiang, Lijun;Lei, Zhonghua;Huang, Qixiu
作者机构:
期刊名称:PHYSIOLOGIA PLANTARUM ( 影响因子:6.4; 五年影响因子:5.9 )
ISSN: 0031-9317
年卷期: 2024 年 176 卷 2 期
页码:
收录情况: SCI
摘要: Shoot branching fundamentally influences plant architecture and agricultural yield. However, research on shoot branching in Dendrobium catenatum, an endangered medicinal plant in China, remains limited. In this study, we identified a transcription factor DcERF109 as a key player in shoot branching by regulating the expression of strigolactone (SL) receptors DWARF 14 (D14)/ DECREASED APICAL DOMINANCE 2 (DAD2). The treatment of D. catenatum seedlings with GR24(rac)/TIS108 revealed that SL can significantly repress the shoot branching in D. catenatum. The expression of DcERF109 in multi-branched seedlings is significantly higher than that of single-branched seedlings. Ectopic expression in Arabidopsis thaliana demonstrated that overexpression of DcERF109 resulted in significant shoot branches increasing and dwarfing. Molecular and biochemical assays demonstrated that DcERF109 can directly bind to the promoters of AtD14 and DcDAD2.2 to inhibit their expression, thereby positively regulating shoot branching. Inhibition of DcERF109 by virus-induced gene silencing (VIGS) resulted in decreased shoot branching and improved DcDAD2.2 expression. Moreover, overexpression of DpERF109 in A. thaliana, the homologous gene of DcERF109 in Dendrobium primulinum, showed similar phenotypes to DcERF109 in shoot branch and plant height. Collectively, these findings shed new insights into the regulation of plant shoot branching and provide a theoretical basis for improving the yield of D. catenatum.
分类号:
- 相关文献
作者其他论文 更多>>
-
Volatile profiles and characteristic odorants in camellia seeds with different heat pretreatments
作者:Feng, Shiling;Li, Pingjin;Li, Yusong;Chen, Xinyu;Leng, Haiqin;Zhou, Lijun;Chen, Tao;Ding, Chunbang;Xiao, Xinsheng;Liang, Heng
关键词:Camellia seeds; Heat pretreatment; Maillard reaction; Volatile flavour; HS-SPME/GC-O-MS
-
High-performance supercapacitors based on coarse nanofiber bundle and ordered network hydrogels
作者:Zhang, Dong-Yang;Chen, Tao
关键词:Coarse nanofiber bundle and ordered network; Silk nanofiber; Cartilage structure; Hydrogel supercapacitors
-
Population Structure and Genetic Diversity of Agave Germplasms in China
作者:Hu, Xiaoli;Li, Yubo;Tan, Shibei;Mkapa, Dietram Samson;Huang, Xing;Hu, Xiaoli;Mkapa, Dietram Samson;Li, Yubo;Chen, Lisha;Mkapa, Dietram Samson;Lin, Chen;Liu, Qingqing;Jin, Gang;Chen, Tao;Qin, Xu;Yi, Kexian;Huang, Xing;Huang, Xing
关键词:agave germplasms; population structure; genetic diversity; genetic differentiation; amplicon sequencing; SNP; phylogeny
-
Optimizing tobacco growth under low temperature: Glutamine enhancing tolerance by coordinating carbon and nitrogen metabolism
作者:Lin, Zhihui;Chen, Tao;Chen, Chengliang;Yin, Changlin;Yu, Keke;Song, Wenjing;Zongguo, Xinan;Yu, Zhiyong;Zhang, Yali;Gao, Zhengxu
关键词:Tobacco; Glutamine; Cold stress; Carbon and nitrogen metabolism; Auxin
-
Moderate Nitrogen Application Synergistically Improved Yield and Quality of Nanjing Series japonica Rice Varieties with Good Taste
作者:Wei, Xiaodong;Zhao, Qingyong;Zhao, Chunfang;Zhang, Yong;Chen, Tao;Zhu, Zhen;Lu, Kai;He, Lei;Zhou, Lihui;Huang, Shengdong;Li, Yusheng;Wang, Cailin;Zhang, Yadong;Wang, Cailin;Zhang, Yadong
关键词:nitrogen level; japonica rice; high-quality cultivation; grain yield; good eating quality
-
Engineering Saccharomyces cerevisiae for De Novo Biosynthesis of 3′-Hydroxygenistein
作者:Tan, Xinjia;Xiao, Zhiqiang;Zhang, Siqi;Wang, Yongtong;Zhao, Yifei;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Shan, Yang;Tan, Xinjia;Xiao, Zhiqiang;Zhang, Siqi;Wang, Yongtong;Zhao, Yifei;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Liu, Juan;Shan, Yang;Tan, Xinjia;Xiao, Zhiqiang;Zhang, Siqi;Wang, Yongtong;Zhao, Yifei;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Liu, Juan;Shan, Yang;Mao, Jiwei
关键词:3 '-hydroxygenistein; genistein; 2-hydroxyisoflavanonesynthase; Saccharomyces cerevisiae; metabolic engineering
-
Sucrose-driven carbon redox rebalancing eliminates the Crabtree effect and boosts energy metabolism in yeast
作者:Xiao, Zhiqiang;Zhao, Yifei;Wang, Yongtong;Tan, Xinjia;Zhang, Siqi;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Shan, Yang;Xiao, Zhiqiang;Zhao, Yifei;Wang, Yongtong;Tan, Xinjia;Zhang, Siqi;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Liu, Juan;Shan, Yang;Xiao, Zhiqiang;Zhao, Yifei;Wang, Yongtong;Tan, Xinjia;Zhang, Siqi;Lu, Qiyuan;Hu, Fanglin;Zuo, Shasha;Liu, Juan;Shan, Yang;Wang, Lian;Wang, Lian;Mao, Jiwei
关键词:
