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人类微小染色体维持复合体新组分的鉴定与特性分析

Identification and characterization of a novel component of the human minichromosome maintenance complex.

作者信息

Sakwe Amos M, Nguyen Tin, Athanasopoulos Vicki, Shire Kathy, Frappier Lori

机构信息

Department of Medical Genetics, University of Toronto, Kings College Circle, Toronto, Ontario, Canada.

出版信息

Mol Cell Biol. 2007 Apr;27(8):3044-55. doi: 10.1128/MCB.02384-06. Epub 2007 Feb 12.

DOI:10.1128/MCB.02384-06
PMID:17296731
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1899943/
Abstract

Minichromosome maintenance (MCM) complex replicative helicase complexes play essential roles in DNA replication in all eukaryotes. Using a tandem affinity purification-tagging approach in human cells, we discovered a form of the MCM complex that contains a previously unstudied protein, MCM binding protein (MCM-BP). MCM-BP is conserved in multicellular eukaryotes and shares limited homology with MCM proteins. MCM-BP formed a complex with MCM3 to MCM7, which excluded MCM2; and, conversely, hexameric complexes of MCM2 to MCM7 lacked MCM-BP, indicating that MCM-BP can replace MCM2 in the MCM complex. MCM-BP-containing complexes exhibited increased stability under experimental conditions relative to those containing MCM2. MCM-BP also formed a complex with the MCM4/6/7 core helicase in vitro, but, unlike MCM2, did not inhibit this helicase activity. A proportion of MCM-BP bound to cellular chromatin in a cell cycle-dependent manner typical of MCM proteins, and, like other MCM subunits, preferentially associated with a cellular origin in G(1) but not in S phase. In addition, down-regulation of MCM-BP decreased the association of MCM4 with chromatin, and the chromatin association of MCM-BP was at least partially dependent on MCM4 and cdc6. The results indicate that multicellular eukaryotes contain two types of hexameric MCM complexes with unique properties and functions.

摘要

微小染色体维持(MCM)复合复制解旋酶复合体在所有真核生物的DNA复制中发挥着至关重要的作用。我们利用串联亲和纯化标记方法在人类细胞中发现了一种形式的MCM复合体,它包含一种此前未被研究的蛋白质——MCM结合蛋白(MCM-BP)。MCM-BP在多细胞真核生物中保守,与MCM蛋白有有限的同源性。MCM-BP与MCM3至MCM7形成复合体,排除了MCM2;相反,MCM2至MCM7的六聚体复合体缺乏MCM-BP,这表明MCM-BP可以在MCM复合体中取代MCM2。相对于含有MCM2的复合体,含MCM-BP的复合体在实验条件下表现出更高的稳定性。MCM-BP在体外也与MCM4/6/7核心解旋酶形成复合体,但与MCM2不同的是,它并不抑制这种解旋酶活性。一部分MCM-BP以MCM蛋白典型的细胞周期依赖性方式与细胞染色质结合,并且与其他MCM亚基一样,在G1期而非S期优先与细胞起源相关联。此外,MCM-BP的下调降低了MCM4与染色质的结合,并且MCM-BP与染色质的结合至少部分依赖于MCM4和cdc6。这些结果表明多细胞真核生物含有两种具有独特性质和功能的六聚体MCM复合体。

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