Tycho E.T. Mevissen, Maximilian Kümmecke, Ernst W. Schmid, Lucas Farnung, Johannes C. Walter
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引用次数: 0
摘要
在转录偶联核苷酸切割修复(TC-NER)中,停滞的 RNA 聚合酶 II(RNA Pol II)与 CSB 和 CRL4CSA 结合,它们与 UVSSA 和 ELOF1 合作招募 TFIIH。为了探索TC-NER的机制,我们在体外重现了这一反应。当含有位点特异性病变的质粒在蛙卵提取物中转录时,可以观察到依赖于 CSB、CRL4CSA、UVSSA 和 ELOF1 的无差错修复。修复还需要 STK19,这是一种以前与紫外线暴露后转录恢复有关的因子。1.9 埃的冷冻电镜结构显示,STK19 通过 CSA 和 RNA Pol II 的 RPB1 亚基与 TC-NER 复合物结合。此外,AlphaFold 预测 STK19 与 TFIIH 的 XPD 亚基相互作用,破坏这一界面会损害无细胞修复。分子建模表明,STK19 使 TFIIH 先于 RNA Pol II 进行病变验证。我们对无细胞 TC-NER 的分析表明,STK19 将 RNA Pol II 停顿与下游修复事件联系起来。
STK19 positions TFIIH for cell-free transcription-coupled DNA repair
In transcription-coupled nucleotide excision repair (TC-NER), stalled RNA polymerase II (RNA Pol II) binds CSB and CRL4CSA, which cooperate with UVSSA and ELOF1 to recruit TFIIH. To explore the mechanism of TC-NER, we recapitulated this reaction in vitro. When a plasmid containing a site-specific lesion is transcribed in frog egg extract, error-free repair is observed that depends on CSB, CRL4CSA, UVSSA, and ELOF1. Repair also requires STK19, a factor previously implicated in transcription recovery after UV exposure. A 1.9-Å cryo-electron microscopy structure shows that STK19 binds the TC-NER complex through CSA and the RPB1 subunit of RNA Pol II. Furthermore, AlphaFold predicts that STK19 interacts with the XPD subunit of TFIIH, and disrupting this interface impairs cell-free repair. Molecular modeling suggests that STK19 positions TFIIH ahead of RNA Pol II for lesion verification. Our analysis of cell-free TC-NER suggests that STK19 couples RNA Pol II stalling to downstream repair events.
期刊介绍:
Cells is an international, peer-reviewed, open access journal that focuses on cell biology, molecular biology, and biophysics. It is affiliated with several societies, including the Spanish Society for Biochemistry and Molecular Biology (SEBBM), Nordic Autophagy Society (NAS), Spanish Society of Hematology and Hemotherapy (SEHH), and Society for Regenerative Medicine (Russian Federation) (RPO).
The journal publishes research findings of significant importance in various areas of experimental biology, such as cell biology, molecular biology, neuroscience, immunology, virology, microbiology, cancer, human genetics, systems biology, signaling, and disease mechanisms and therapeutics. The primary criterion for considering papers is whether the results contribute to significant conceptual advances or raise thought-provoking questions and hypotheses related to interesting and important biological inquiries.
In addition to primary research articles presented in four formats, Cells also features review and opinion articles in its "leading edge" section, discussing recent research advancements and topics of interest to its wide readership.
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