由多亚基RNA聚合酶驱动的NTP依赖性转位及下游模板解链调控

NTP-driven translocation and regulation of downstream template opening by multi-subunit RNA polymerases.

作者信息

Burton Zachary F, Feig Michael, Gong Xue Q, Zhang Chunfen, Nedialkov Yuri A, Xiong Yalin

机构信息

Department of Biochemistry and Molecular Biology, Michigan State University, E. Lansing, MI 48824, USA.

出版信息

Biochem Cell Biol. 2005 Aug;83(4):486-96. doi: 10.1139/o05-059.

DOI:10.1139/o05-059

PMID:16094452

Abstract

Multi-subunit RNA polymerases bind nucleotide triphosphate (NTP) substrates in the pretranslocated state and carry the dNMP-NTP base pair into the active site for phosphoryl transfer. NTP-driven translocation requires that NTP substrates enter the main-enzyme channel before loading into the active site. Based on this model, a new view of fidelity and efficiency of RNA synthesis is proposed. The model predicts that, during processive elongation, NTP-driven translocation is coupled to a protein conformational change that allows pyrophosphate release: coupling the end of one bond-addition cycle to substrate loading and translocation for the next. We present a detailed model of the RNA polymerase II elongation complex based on 2 low-affinity NTP binding sites located in the main-enzyme channel. This model posits that NTP substrates, elongation factors, and the conserved Rpb2 subunit fork loop 2 cooperate to regulate opening of the downstream transcription bubble.

摘要

多亚基RNA聚合酶在预转位状态下结合三磷酸核苷酸（NTP）底物，并将脱氧单磷酸核苷酸-三磷酸核苷酸碱基对带入活性位点进行磷酸转移。由NTP驱动的转位要求NTP底物在装载到活性位点之前进入主酶通道。基于此模型，提出了关于RNA合成保真度和效率的新观点。该模型预测，在持续延伸过程中，由NTP驱动的转位与蛋白质构象变化相偶联，从而允许焦磷酸释放：将一个键添加循环的结束与下一个底物装载和转位相偶联。我们基于位于主酶通道中的2个低亲和力NTP结合位点，提出了RNA聚合酶II延伸复合物的详细模型。该模型假定NTP底物、延伸因子和保守的Rpb2亚基叉环2共同协作以调节下游转录泡的打开。

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由多亚基RNA聚合酶驱动的NTP依赖性转位及下游模板解链调控

NTP-driven translocation and regulation of downstream template opening by multi-subunit RNA polymerases.

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