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裂殖酵母Cdc19p(MCM2)的多个结构域是其与核心MCM复合物结合所必需的。

Multiple domains of fission yeast Cdc19p (MCM2) are required for its association with the core MCM complex.

作者信息

Sherman D A, Pasion S G, Forsburg S L

机构信息

Molecular Biology and Virology Laboratory, The Salk Institute, La Jolla, California 92037, USA.

出版信息

Mol Biol Cell. 1998 Jul;9(7):1833-45. doi: 10.1091/mbc.9.7.1833.

DOI:10.1091/mbc.9.7.1833
PMID:9658174
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC25423/
Abstract

The members of the MCM protein family are essential eukaryotic DNA replication factors that form a six-member protein complex. In this study, we use antibodies to four MCM proteins to investigate the structure of and requirements for the formation of fission yeast MCM complexes in vivo, with particular regard to Cdc19p (MCM2). Gel filtration analysis shows that the MCM protein complexes are unstable and can be broken down to subcomplexes. Using coimmunoprecipitation, we find that Mis5p (MCM6) and Cdc21p (MCM4) are tightly associated with one another in a core complex with which Cdc19p loosely associates. Assembly of Cdc19p with the core depends upon Cdc21p. Interestingly, there is no obvious change in Cdc19p-containing MCM complexes through the cell cycle. Using a panel of Cdc19p mutants, we find that multiple domains of Cdc19p are required for MCM binding. These studies indicate that MCM complexes in fission yeast have distinct substructures, which may be relevant for function.

摘要

MCM蛋白家族成员是真核生物中必不可少的DNA复制因子,它们形成一个由六个成员组成的蛋白质复合体。在本研究中,我们使用针对四种MCM蛋白的抗体,来研究体内裂殖酵母MCM复合体的结构及其形成所需的条件,尤其关注Cdc19p(MCM2)。凝胶过滤分析表明,MCM蛋白复合体不稳定,可分解为亚复合体。通过免疫共沉淀,我们发现Mis5p(MCM6)和Cdc21p(MCM4)在一个核心复合体中紧密相连,而Cdc19p与该核心复合体松散结合。Cdc19p与核心的组装依赖于Cdc21p。有趣的是,含Cdc19p的MCM复合体在细胞周期中没有明显变化。使用一组Cdc19p突变体,我们发现MCM结合需要Cdc19p的多个结构域。这些研究表明,裂殖酵母中的MCM复合体具有不同的亚结构,这可能与功能相关。

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