生物
转录组
转录因子
保守序列
遗传学
进化生物学
拟南芥
草本植物
计算生物学
调节器
基因
功能(生物学)
白桦
系统发育学
系统发育树
遗传变异
基因调控网络
中性分子进化理论
表型
利基
功能分析
抑制器
交互网络
基因表达调控
拟南芥
植物
共生
抑制因子
转录调控
作者
Yaqi Jia,Yixian Zhang,Xiaoxue Ye,Liangyu Guo,Han Li,Yixin Guo,Jue Wang,Shuo Wang,Wenwu Wu
摘要
Angiosperms have colonized diverse climates, ranging from tropical to temperate and polar regions. While the C-repeat binding factor (CBF)-mediated regulatory network is a well-established mechanism in plant cold responses, the existence of other evolutionarily conserved pathways remains poorly understood. We conducted comparative genomic and transcriptomic analyses of 10 representative angiosperms exposed to cold stress, followed by functional characterization of selected regulatory factors in both the herbaceous model Arabidopsis thaliana and the woody species Betula platyphylla (birch) through genetic and molecular approaches. We identified 22 conserved cold-responsive transcription factor orthogroups (CCRTFOs), including members of the CBF, WRKY, ERF and NAC families. Genetic analysis of the WRKY25/26/33 orthogroup revealed that WRKY25 and WRKY33 confer cold responses via a CBF-independent pathway. Mechanistically, WRKY33 directly regulates the expression of NAC032, a member of another CCRTFO, which we also functionally validated as a positive regulator of cold tolerance. Moreover, cross-species validation confirmed that the birch orthologs, BpWRKY33 and BpNAC032, similarly improve cold tolerance. Collectively, our findings identify a core set of CCRTFOs and demonstrate the evolutionary conservation and functional significance of the WRKY33-NAC032 module in angiosperm cold resistance, highlighting a broader molecular network beyond the canonical CBF pathway.
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