Weiwei Liu, Lijun Deng, Ming Wang, Xiaojun Liu, Xuan Ouyang, Yuan Wang, Na Miao, Xiu Luo, Xueming Wu, Xiaohua Lu, Xiangjin Xv, Tianyu Zhang, Yu Li, Jinyao Ji, Zhenghao Qiao, Sheng Wang, Li Guan, Dong Li, Yunkun Dang, Chao Liu, Yang Yu
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引用次数: 0
摘要
piwi相互作用RNA (piRNA)通路通过抑制转座子在保护动物生殖细胞中发挥重要作用。然而,pirna引导的异染色质形成的机制及其与转录终止的关系尚不清楚。通过RNA干扰筛选,我们发现Pcf11和PNUTS在果蝇种系中对pirna引导的沉默至关重要。强制捆绑Pcf11导致共转录抑制和RNA聚合酶II (RNA Pol II)停滞,两者都依赖于Pcf11能够形成凝聚物的α-螺旋区。一个内在无序的区域可以替代Pcf11的α-螺旋区,具有沉默能力并支持动物发育,这表明相分离与Pcf11的功能之间存在因果关系。Pcf11通过优先与未磷酸化的Spt5形成凝聚物来阻止RNA Pol II, PP1/PNUTS磷酸酶在终止过程中促进了这一过程。我们提出Pcf11/Spt5凝聚物通过减缓聚合酶延伸来控制终止,pirna利用这一特性沉默转座子并启动rna介导的异染色质形成。
Pcf11/Spt5 condensates stall RNA polymerase II to facilitate termination and piRNA-guided heterochromatin formation
The PIWI-interacting RNA (piRNA) pathway plays a crucial role in protecting animal germ cells by repressing transposons. However, the mechanism of piRNA-guided heterochromatin formation and its relationship to transcriptional termination remains elusive. Through RNA interference screening, we discovered Pcf11 and PNUTS as essential for piRNA-guided silencing in Drosophila germ line. Enforced tethering of Pcf11 leads to co-transcriptional repression and RNA polymerase II (RNA Pol II) stalling, and both are dependent on an α-helical region of Pcf11 capable of forming condensates. An intrinsically disordered region can substitute for the α-helical region of Pcf11 in its silencing capacity and support animal development, arguing for a causal relationship between phase separation and Pcf11’s function. Pcf11 stalls RNA Pol II by preferentially forming condensates with the unphosphorylated Spt5, promoted by the PP1/PNUTS phosphatase during termination. We propose that Pcf11/Spt5 condensates control termination by decelerating polymerase elongation, a property exploited by piRNAs to silence transposons and initiate RNA-mediated heterochromatin formation.
期刊介绍:
Molecular Cell is a companion to Cell, the leading journal of biology and the highest-impact journal in the world. Launched in December 1997 and published monthly. Molecular Cell is dedicated to publishing cutting-edge research in molecular biology, focusing on fundamental cellular processes. The journal encompasses a wide range of topics, including DNA replication, recombination, and repair; Chromatin biology and genome organization; Transcription; RNA processing and decay; Non-coding RNA function; Translation; Protein folding, modification, and quality control; Signal transduction pathways; Cell cycle and checkpoints; Cell death; Autophagy; Metabolism.
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