光形态发生
剪接体
小剪接体
内含子
生物
遗传学
细胞生物学
拟南芥
基因
核糖核酸
RNA剪接
突变体
作者
Hua Zhou,Haiyue Zeng,Tingting Yan,Sunlu Chen,Ying Fu,Guochen Qin,Xianhai Zhao,Yueqin Heng,Jian Li,Fang Lin,Dongqing Xu,Ning Wei,Xing Wang Deng
标识
DOI:10.1038/s41467-024-49571-9
摘要
Abstract Intron retention (IR) is the most common alternative splicing event in Arabidopsis . An increasing number of studies have demonstrated the major role of IR in gene expression regulation. The impacts of IR on plant growth and development and response to environments remain underexplored. Here, we found that IR functions directly in gene expression regulation on a genome-wide scale through the detainment of intron-retained transcripts (IRTs) in the nucleus. Nuclear-retained IRTs can be kept away from translation through this mechanism. COP1-dependent light modulation of the IRTs of light signaling genes, such as PIF4 , RVE1 , and ABA3 , contribute to seedling morphological development in response to changing light conditions. Furthermore, light-induced IR changes are under the control of the spliceosome, and in part through COP1-dependent ubiquitination and degradation of DCS1, a plant-specific spliceosomal component. Our data suggest that light regulates the activity of the spliceosome and the consequent IRT nucleus detainment to modulate photomorphogenesis through COP1.
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