转录终止维持染色体完整性。

Transcription termination maintains chromosome integrity.

机构信息

Department of Microbiology and Immunology, Columbia University Medical Center, New York, NY 10032, USA.

出版信息

Proc Natl Acad Sci U S A. 2011 Jan 11;108(2):792-7. doi: 10.1073/pnas.1009564108. Epub 2010 Dec 23.

DOI:10.1073/pnas.1009564108

PMID:21183718

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3021005/

Abstract

DNA replication fork movement is impeded by collisions with transcription elongation complexes (TEC). We propose that a critical function of transcription termination factors is to prevent TEC from blocking DNA replication and inducing replication fork arrest, one consequence of which is DNA double-strand breaks. We show that inhibition of Rho-dependent transcription termination by bicyclomycin in Escherichia coli induced double-strand breaks. Cells deleted for Rho-cofactors nusA and nusG were hypersensitive to bicyclomycin, and had extensive chromosome fragmentation even in the absence of the drug. An RNA polymerase mutation that destabilizes TEC (rpoB*35) increased bicyclomycin resistance >40-fold. Double-strand break formation depended on DNA replication, and can be explained by replication fork collapse. Deleting recombination genes required for replication fork repair (recB and ruvC) increased sensitivity to bicyclomycin, as did loss of the replication fork reloading helicases rep and priA. We propose that Rho responds to a translocating replisome by releasing obstructing TEC.

摘要

DNA 复制叉的移动会受到与转录延伸复合物（TEC）碰撞的阻碍。我们提出，转录终止因子的一个关键功能是防止 TEC 阻断 DNA 复制并诱导复制叉停滞，其结果之一是 DNA 双链断裂。我们表明，在大肠杆菌中，双环霉素抑制 Rho 依赖性转录终止会诱导双链断裂。缺失 Rho 辅助因子 nusA 和 nusG 的细胞对双环霉素敏感，即使没有药物存在，也会有广泛的染色体片段化。使 TEC 不稳定的 RNA 聚合酶突变（rpoB*35）使双环霉素的抗性增加了 40 多倍。双链断裂的形成依赖于 DNA 复制，可以通过复制叉崩溃来解释。删除复制叉修复所需的重组基因（recB 和 ruvC）会增加对双环霉素的敏感性，复制叉重新加载解旋酶 rep 和 priA 的缺失也是如此。我们提出，Rho 通过释放阻碍复制叉的 TEC 来响应移动的复制叉。

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A NusE:NusG complex links transcription and translation.NusE:NusG 复合物连接转录和翻译。

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An allosteric mechanism of Rho-dependent transcription termination.Rho 依赖性转录终止的别构机制。

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The helicases DinG, Rep and UvrD cooperate to promote replication across transcription units in vivo.螺旋酶 DinG、Rep 和 UvrD 合作促进体内转录单元间的复制。

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