机制分析局部 ori 融解和旋酶组装的乳多空病毒 E1 蛋白。
Mechanistic analysis of local ori melting and helicase assembly by the papillomavirus E1 protein.
机构信息
Cold Spring Harbor Laboratory, Cold Spring Harbor, NY 11724, USA.
出版信息
Mol Cell. 2011 Sep 2;43(5):776-87. doi: 10.1016/j.molcel.2011.06.026.
Abstract
Preparation of DNA templates for replication requires opening of the duplex to expose single-stranded (ss) DNA. The locally melted DNA is required for replicative DNA helicases to initiate unwinding. How local melting is generated in eukaryotic replicons is unknown, but initiator proteins from a handful of eukaryotic viruses can perform this function. Here we dissect the local melting process carried out by the papillomavirus E1 protein. We characterize the melting process kinetically and identify mutations in the E1 helicase and in the ori that arrest the local melting process. We show that a subset of these mutants have specific defects for melting of the center of the ori containing the binding sites for E1 and demonstrate that these mutants fail to untwist the ori DNA. This understanding of how E1 generates local melting suggests possible mechanisms for local melting in other replicons.
摘要
制备用于复制的 DNA 模板需要打开双链以暴露单链 (ss) DNA。局部融化的 DNA 是复制 DNA 解旋酶启动解旋所必需的。真核复制子中局部融化是如何产生的尚不清楚,但少数真核病毒的起始蛋白可以发挥此功能。在这里,我们剖析了乳头瘤病毒 E1 蛋白进行的局部融化过程。我们从动力学上描述了这个融化过程,并鉴定了 E1 解旋酶和 ori 中的突变,这些突变会阻止局部融化过程。我们表明,这些突变体中的一部分对 ori 中心的融化具有特定的缺陷,该中心包含 E1 的结合位点,并表明这些突变体无法解开 ori DNA。对 E1 如何产生局部融化的这种理解为其他复制子中的局部融化提供了可能的机制。
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