拟南芥复制胁迫下SOG1表达的翻译调控

Jinchao Li, Weiqiang Qian
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引用次数: 0

摘要

DNA损伤可能是由细胞活动引起的,也可能是由基因毒性胁迫引起的,它会导致基因组不稳定,并严重影响植物的生长和生产力。为了应对基因毒性胁迫,植物激活细胞DNA损伤反应(DDR)来感知胁迫并激活下游过程。转录因子抑制γ反应1 (SOG1)是哺乳动物p53的功能对应物,是植物DDR的主要调控因子。它可以被各种类型的DNA损伤激活,并可以激活数百个基因的转录来触发下游过程,包括细胞周期阻滞、DNA修复、内复制和凋亡。由于SOG1在DDR中起着至关重要的作用,SOG1的活性必须受到严格调控。最近发表在Plant Cell上的一项研究(Chen et al., Plant Cell koad126, 2023)报道了ATR-WEE1激酶模块促进SOG1翻译以微调复制应激反应的新机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Translational control of SOG1 expression in response to replication stress in Arabidopsis.

Translational control of SOG1 expression in response to replication stress in Arabidopsis.

DNA damage, which may arise from cellular activities or be induced by genotoxic stresses, can cause genome instability and significantly affect plant growth and productivity. In response to genotoxic stresses, plants activate the cellular DNA damage response (DDR) to sense the stresses and activate downstream processes. The transcription factor SUPPRESSOR OF GAMMA RESPONSE 1 (SOG1), a functional counterpart of mammalian p53, is a master regulator of the DDR in plants. It is activated by various types of DNA lesions and can activate the transcription of hundreds of genes to trigger downstream processes, including cell cycle arrest, DNA repair, endoreplication, and apoptosis. Since SOG1 plays a crucial role in DDR, the activity of SOG1 must be tightly regulated. A recent study published in Plant Cell (Chen et al., Plant Cell koad126, 2023) reports a novel mechanism by which the ATR-WEE1 kinase module promotes SOG1 translation to fine-tune replication stress response.

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