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一种三步转录起始途径,其导致在激活的RNA聚合酶II启动子处实现启动子清除。

A three-step pathway of transcription initiation leading to promoter clearance at an activation RNA polymerase II promoter.

作者信息

Jiang Y, Yan M, Gralla J D

机构信息

Department of Chemistry and Biochemistry, University of California at Los Angeles, 90095-1569, USA.

出版信息

Mol Cell Biol. 1996 Apr;16(4):1614-21. doi: 10.1128/MCB.16.4.1614.

DOI:10.1128/MCB.16.4.1614
PMID:8657136
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC231147/
Abstract

The progress of transcription bubbles during inhibition in vitro was followed in order to learn how RNA polymerase II begins transcription at the activated adenovirus E4 promoter. The issues addressed include the multiple roles of ATP, the potential effect of polymerase C-terminal domain phosphorylation, and the ability of polymerase to clear the promoter for reinitiation. The results lead to a three-step model for the transition from closed complex to elongation complex, two steps of which use ATP independently. In the first step, studied previously, ATP is hydrolyzed to open the DNA strands over the start site. In a second step, apparently independent of ATP, transcription bubbles move into the initial transcribed region where RNA synthesis can stall. In the third step, transcripts can be made as polymerase is released from these stalled positions with the assistance of an ATP-dependent process, likely phosphorylation of the polymerase C-terminal domain. After this third step, the promoter becomes cleared, allowing for the reinitiation of transcription.

摘要

为了了解RNA聚合酶II如何在激活的腺病毒E4启动子处开始转录,我们跟踪了体外抑制过程中转录泡的进展。所解决的问题包括ATP的多种作用、聚合酶C末端结构域磷酸化的潜在影响以及聚合酶清除启动子以便重新起始的能力。结果得出了一个从封闭复合物到延伸复合物转变的三步模型,其中两步独立使用ATP。在第一步(先前已研究过)中,ATP被水解以打开起始位点上方的DNA链。在第二步中,转录泡显然独立于ATP移动到RNA合成可能停滞的初始转录区域。在第三步中,随着聚合酶在ATP依赖过程(可能是聚合酶C末端结构域的磷酸化)的帮助下从这些停滞位置释放,转录本得以合成。在第三步之后,启动子被清除,从而允许转录重新起始。

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本文引用的文献

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