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Cdt1与微小染色体维持蛋白(MCM)形成复合物,并激活其解旋酶活性。

Cdt1 forms a complex with the minichromosome maintenance protein (MCM) and activates its helicase activity.

作者信息

You Zhiying, Masai Hisao

机构信息

Genome Dynamics Project, Tokyo Metropolitan Institute of Medical Science, 18-22 Honkomagome 3-chome, Bunkyo-ku, Tokyo 113-8613, Japan.

出版信息

J Biol Chem. 2008 Sep 5;283(36):24469-77. doi: 10.1074/jbc.M803212200. Epub 2008 Jul 7.

DOI:10.1074/jbc.M803212200
PMID:18606811
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3259827/
Abstract

Mcm4/6/7 forms a complex possessing DNA helicase activity, suggesting that Mcm may be a central component for the replicative helicase. Although Cdt1 is known to be essential for loading of Mcm onto the chromatin, its precise role in pre-RC formation and replication initiation is unknown. Using purified proteins, we show that Cdt1 forms a complex with Mcm4/6/7, Mcm2/3/4/5/6/7, and Mcm2/4/6/7 in glycerol gradient fractionation through interaction with Mcm2 and Mcm4/6. In the glycerol gradient fractionation, Mcm4/6/7-Cdt1 forms a complex (speculated to be a (Mcm4/6/7)2-Cdt13 assembly) in the presence of ATP, which is significantly larger than the Mcm4/6/7-Cdt1 complex generated in its absence. Furthermore, DNA binding and helicase activities of Mcm4/6/7 are significantly stimulated by Cdt1 protein in vitro. We generated a Cdt1 mutant, which fails to stimulate DNA binding and helicase activities of Mcm4/6/7. This mutant Cdt1 showed reduced interaction with Mcm and is deficient in the formation of a high molecular weight complex with Mcm. Thus, a productive interaction between Cdt1 and MCM appears to be essential for efficient loading of MCM onto template DNA, as well as for the efficient unwinding reaction.

摘要

Mcm4/6/7形成一个具有DNA解旋酶活性的复合体,这表明Mcm可能是复制型解旋酶的核心组成部分。虽然已知Cdt1对于将Mcm加载到染色质上是必不可少的,但其在复制前复合体(pre-RC)形成和复制起始中的精确作用尚不清楚。我们使用纯化的蛋白质表明,通过与Mcm2以及Mcm4/6相互作用,Cdt1在甘油梯度分级分离中与Mcm4/6/7、Mcm2/3/4/5/6/7和Mcm2/4/6/7形成复合体。在甘油梯度分级分离中,Mcm4/6/7 - Cdt1在ATP存在的情况下形成一个复合体(推测为(Mcm4/6/7)2 - Cdt13组装体),其明显大于在无ATP时产生的Mcm4/6/7 - Cdt1复合体。此外,在体外,Cdt1蛋白显著刺激Mcm4/6/7的DNA结合和解旋酶活性。我们构建了一个不能刺激Mcm4/6/7的DNA结合和解旋酶活性的Cdt1突变体。这个突变的Cdt1与Mcm的相互作用减少,并且在与Mcm形成高分子量复合体方面存在缺陷。因此,Cdt1与MCM之间有效的相互作用对于将MCM有效地加载到模板DNA上以及高效的解旋反应似乎至关重要。

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