T7 RNA聚合酶绕过模板链上的大缺口揭示了非模板链在延伸过程中的关键作用。
T7 RNA polymerase bypass of large gaps on the template strand reveals a critical role of the nontemplate strand in elongation.
作者信息
Zhou W, Reines D, Doetsch P W
机构信息
Department of Biochemistry, Emory University School of Medicine, Atlanta, Georgia 30322, USA.
出版信息
Cell. 1995 Aug 25;82(4):577-85. doi: 10.1016/0092-8674(95)90030-6.
Abstract
We show that T7 RNA polymerase can efficiently transcribe DNA containing gaps from one to five bases in the template strand. Surprisingly, broken template strands missing up to 24 bases can still be transcribed, although at reduced efficiency. The resulting transcripts contain the full template sequence with the RNA deleted for the gapped region missing on the template strand. These findings indicate that the end of a downstream template strand can be brought into the polymerase and transcribed as if it were a part of an intact polynucleotide chain by utilizing the unpaired nontemplate strand. This, as well as transcription of an intact template strand, relies heavily upon the non-template strand, suggesting that a duplex DNA-binding site on the leading edge of RNA polymerase is required for RNA chain elongation on DNA templates. This work contributes substantially to the emerging picture that the nontemplate strand is an important element of the transcription elongation complex.
摘要
我们表明,T7 RNA聚合酶能够高效转录模板链中存在1至5个碱基缺口的DNA。令人惊讶的是,缺失多达24个碱基的断裂模板链仍能被转录,尽管效率有所降低。所产生的转录本包含完整的模板序列,其中RNA缺失了模板链上缺口区域的部分。这些发现表明,下游模板链的末端可以被带入聚合酶中,并像完整多核苷酸链的一部分一样进行转录,这是通过利用未配对的非模板链实现的。这一点以及完整模板链的转录,都严重依赖于非模板链,这表明RNA聚合酶前沿的双链DNA结合位点对于DNA模板上的RNA链延伸是必需的。这项工作极大地推动了这样一种新观点的形成,即非模板链是转录延伸复合物的一个重要组成部分。
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