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SIZ1-mediated SUMOylation of CPSF100 promotes plant thermomorphogenesis by controlling alternative polyadenylation
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作者 Zhibo Yu Jun Wang +11 位作者 Cheng Zhang Qiuna Zhan leqian shi Bing Song Danlu Han Jieming Jiang Junwen Huang Xiaolin Ou Zhonghui Zhang Jianbin Lai Qingshun Quinn Li Chengwei Yang 《Molecular Plant》 SCIE CSCD 2024年第9期1392-1406,共15页
Under warm temperatures,plants adjust their morphologies for environmental adaption via precise gene expression regulation.However,the function and regulation of alternative polyadenylation(APA),an important fine-tuni... Under warm temperatures,plants adjust their morphologies for environmental adaption via precise gene expression regulation.However,the function and regulation of alternative polyadenylation(APA),an important fine-tuning of gene expression,remains unknown in plant thermomorphogenesis.In this study,we found that SUMOylation,a critical post-translational modification,is induced by a long-term treat-ment at warm temperatures via a SUMO ligase SIZ1 in Arabidopsis.Disruption of SIZ1 altered the global usage of polyadenylation signals and affected the APA dynamic of thermomorphogenesis-related genes.CPSF100,a key subunit of the CPSF complex for polyadenylation regulation,is SUMOylated by SIZ1.Importantly,we demonstrated that SUMOylation is essential for the function of CPSF1oo in genome-wide polyadenylation site choice during thermomorphogenesis.Further analyses revealed that the SUMO conjugation on CPSF100 attenuates its interaction with two isoforms of its partner CPSF30,increasing the nuclear accumulation of CPsF1oo for polyadenylation regulation.In summary,our study uncovers a regulatory mechanism of APA via SiZ1-mediated SUMOylation in plant thermomorpho-genesis. 展开更多
关键词 alternative polyadenylation CPSF100 SiZ1 SUMOYLATION thermomorphogenesis
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