在转录过程中，在系统发育保守的线粒体DNA序列处会形成持续存在的RNA-DNA杂交体。

A persistent RNA-DNA hybrid is formed during transcription at a phylogenetically conserved mitochondrial DNA sequence.

作者信息

Xu B, Clayton D A

机构信息

Department of Developmental Biology, Beckman Center, Stanford University School of Medicine, California 94305-5427.

出版信息

Mol Cell Biol. 1995 Jan;15(1):580-9. doi: 10.1128/MCB.15.1.580.

DOI:10.1128/MCB.15.1.580

PMID:7528331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC232017/

Abstract

Critical features of the mitochondrial leading-strand DNA replication origin are conserved from Saccharomyces cerevisiae to humans. These include a promoter and a downstream GC-rich sequence block (CSBII) that encodes rGs within the primer RNA. During in vitro transcription at yeast mitochondrial replication origins, there is stable and persistent RNA-DNA hybrid formation that begins at the 5' end of the rG region. The short rG-dC sequence is the necessary and sufficient nucleic acid element for establishing stable hybrids, and the presence of rGs within the RNA strand of the RNA-DNA hybrid is required. The efficiency of hybrid formation depends on the length of RNA synthesized 5' to CSBII and the type of RNA polymerase employed. Once made, the RNA strand of an RNA-DNA hybrid can serve as an effective primer for mitochondrial DNA polymerase. These results reveal a new mechanism for persistent RNA-DNA hybrid formation and suggest a step in priming mitochondrial DNA replication that requires both mitochondrial RNA polymerase and an rG-dC sequence-specific event to form an extensive RNA-DNA hybrid.

摘要

线粒体前导链DNA复制起点的关键特征从酿酒酵母到人类都是保守的。这些特征包括一个启动子和一个下游富含GC的序列模块（CSBII），该模块在引物RNA中编码rG。在酵母线粒体复制起点的体外转录过程中，会形成稳定且持久的RNA-DNA杂交体，其始于rG区域的5'端。短的rG-dC序列是形成稳定杂交体的必要且充分的核酸元件，并且RNA-DNA杂交体的RNA链中需要存在rG。杂交体形成的效率取决于5'至CSBII合成的RNA的长度以及所使用的RNA聚合酶的类型。一旦形成，RNA-DNA杂交体的RNA链就可以作为线粒体DNA聚合酶的有效引物。这些结果揭示了一种持久的RNA-DNA杂交体形成的新机制，并表明了启动线粒体DNA复制的一个步骤，该步骤需要线粒体RNA聚合酶和一个rG-dC序列特异性事件来形成广泛的RNA-DNA杂交体。

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本文引用的文献

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