Regulation of MCM2-7 function
- PMID: 30369561
- DOI: 10.1266/ggs.18-00026
Regulation of MCM2-7 function
Erratum in
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Corrigendum: Regulation of MCM2-7 function [Genes Genet. Syst. (2018) 93, p. 125-133].Genes Genet Syst. 2019;94(3):139. doi: 10.1266/ggs.94.139. Genes Genet Syst. 2019. PMID: 31353333
Abstract
Recently published structural and functional analyses of the CMG complex have provided insight into the mechanism of its DNA helicase function and into the distinct roles of its central six component proteins MCM2-MCM7 (MCM2-7). To activate CMG helicase, the two protein kinases CDK and DDK, as well as MCM10, are required. In addition to the initiation of DNA replication, MCM function must be regulated at the DNA replication steps of elongation and termination. Polyubiquitylation of MCM7 is involved in terminating MCM function. Reinitiation of DNA replication in a single cell cycle, which is prevented mainly by CDK, is understood at the molecular level. MCM2-7 gene expression is regulated during cellular aging and the cell cycle, and the expression depends on oxygen concentration. These regulatory processes have been described recently. Genomic structural alteration, which is an essential element in cancer progression, is mainly generated by disruptions of DNA replication fork structures. A point mutation in MCM4 that disturbs MCM2-7 function results in genomic instability, leading to the generation of cancer cells. In this review, I focus on the following points: 1) function of the MCM2-7 complex, 2) activation of MCM2-7 helicase, 3) regulation of MCM2-7 function, 4) MCM2-7 expression, and 5) the role of MCM mutation in cancer progression.
Keywords: DNA helicase; DNA replication; MCM2-7 complex; cancer; phosphorylation.
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