文献类型: 外文期刊
第一作者: Huang, Chao
作者: Huang, Chao;Sun, Wenqing;Wang, Yuchun;Huang, Chao;Ding, Changqing;Tang, Junwei;Sun, Wenqing;Zhang, Yongheng;Chen, Yao;Huang, Mengmeng;Li, Hanjia;Wang, Xinchao;Hao, Xinyuan;Yu, Jizhong
作者机构:
关键词: DELLA protein; Gene family; Tea plant; Evolutionary; Interacting proteins; Bud sprouting
期刊名称:PLANT PHYSIOLOGY AND BIOCHEMISTRY ( 影响因子:5.7; 五年影响因子:6.4 )
ISSN: 0981-9428
年卷期: 2025 年 229 卷
页码:
收录情况: SCI
摘要: DELLA proteins function as key negative regulators in gibberellin signaling, driving numerous molecular mechanisms that impact plant morphogenesis and ontogeny. In this study, eight representative DELLA proteins were identified based on pan-genome analysis of Camellia sinensis var. assamica (CSA) and Camellia sinensis var. sinensis (CSS). Phylogenetically, these DELLA proteins were subdivided into five groups, and their evolutionary trajectories were systematically investigated. Five DELLA proteins identified in Longjing43, including a newly discovered CsDELLA5, were found to be crucial for growth and exhibited distinct expression patterns in different tissues of tea plant during seasonal transitions. The five proteins were mainly located in the nucleus, CsDELLA2 exhibited a spotted distribution in the cytoplasm. CsDELLAs also showed varied protein structure, hormone responses and expression patterns in bud sprouting. Notably, the presence of GAs significantly enhanced the interaction between CsDELLA2/4/5 and CsGID1a/b.Inhibition of the expression of CsDELLA2 and CsDELLA4 significantly increase the bud sprouting rate indicating a negative function in regulation of bud break. This study offers valuable insights into the roles of DELLA proteins in tea plants and provides a theoretical foundation for DELLA protein research in other species.
分类号:
- 相关文献
作者其他论文 更多>>
-
Revealing the Molecular Regulatory Mechanism of Flavonoid Accumulation in Tender Leaves of Tea Plants by Transcriptomic and Metabolomic Analyses
作者:Shan, Ruiyang;You, Xiaomei;Kong, Xiangrui;Zhang, Yazhen;Li, Xinlei;Chen, Changsong;Zhang, Yongheng;Wang, Lu;Wang, Xinchao
关键词:
Camellia sinensis ; transcriptomics; flavonoids; regulatory network -
Two leucine-rich repeat receptor-like kinases initiate herbivory defense responses in tea plants
作者:Jiang, Qi;Ding, Changqing;Feng, Lingjia;Wu, Zhenwei;Liu, Yujie;He, Lintong;Liu, Chuande;Wang, Lu;Zeng, Jianming;Huang, Jianyan;Ye, Meng
关键词:
-
Post-anthesis water use and biomass accumulation in winter wheat under subsoiling and microsprinkler irrigation
作者:Huang, Chao;Zhang, Yanyan;Liu, Xuchen;Gao, Yang;Ma, Shoutian;Qin, Anzhen;Li, Ying;Liu, Zhandong;Huang, Chao;Zhang, Yanyan;Liu, Xuchen;Gao, Yang;Ma, Shoutian;Qin, Anzhen;Li, Ying;Liu, Zhandong;Huang, Chao;Zhang, Yanyan;Liu, Xuchen;Ma, Shoutian;Qin, Anzhen;Li, Ying;Liu, Zhandong;Huang, Chao;Zhang, Qifeng;Gao, Zile;Wu, Guanghui;Wang, Kai
关键词:Microsprinkler irrigation; Winter wheat; Water consumption characteristics; Post-anthesis biomass accumulation; Grain-filling characteristics; North China Plain
-
CsCIPK20 Improves Tea Plant Cold Tolerance by Modulating Ascorbic Acid Synthesis Through Attenuation of CsCSN5-CsVTC1 Interaction
作者:Di, Taimei;Wu, Yedie;Wang, Jie;He, Mingming;Huang, Jianyan;Li, Nana;Hao, Xinyuan;Ding, Changqing;Zeng, Jianming;Yang, Yajun;Wang, Xinchao;Wang, Lu
关键词:ascorbic acid; CsCIPK20; CsVTC1; low temperature
-
CsCBF1/CsZHD9-CsMADS27, a critical gene module controlling dormancy and bud break in tea plants
作者:Hao, Xinyuan;Tang, Junwei;Chen, Yao;Huang, Chao;Zhang, Weifu;Liu, Ying;Wang, Lu;Ding, Changqing;Yang, Yajun;Wang, Xinchao;Chen, Yao;Yue, Chuan;Liu, Ying;Dai, Wenhao;Horvath, David P.
关键词:bud dormancy; bud break; MADS-box; gene function; regulatory network;
Camellia sinensis -
Identification of key aroma components responsive for jasmine-like aroma in 'Chungui' cultivar oolong tea processing
作者:Zhang, Yongheng;Shan, Ruiyang;You, Xiaomei;Zheng, Shiqin;Chen, Zhihui;Li, Xinlei;Kong, Xiangrui;Zhang, Yazhen;Lin, Zhenghe;Chen, Changsong;Zhang, Yongheng;Ding, Changqing;Wang, Xinchao
关键词:Oolong tea; Volatile compounds; Dynamic change; Aroma difference
-
Facile encapsulation of chromic oxide nanoparticles into heterocyclic ligand derived hierarchical porous N-doped carbon networks for efficient electrochemical nitrogen fixation and Li-storage
作者:Zeng, Xia;Zuo, Weipeng;Tang, Chenbo;Hui, Liufu;Ma, Lin;Zheng, Yuyan;Sun, Ruishan;Chen, Jing;Li, Hanjia;Chen, Yajie;Wang, Jing;Zuo, Weipeng;Ma, Lin;Chen, Jing
关键词:Chromic oxide; Porous carbon; Electrocatalyst; Nitrogen fixation; Anode; Lithium ion battery
