1. Assembly, Activation, and Helicase Actions of MCM2-7: Transition from Inactive MCM2-7 Double Hexamers to Active Replication Forks.
- Author
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You, Zhiying and Masai, Hisao
- Subjects
- *
REPLICATION fork , *DNA denaturation , *DNA helicases , *DNA synthesis , *REPLISOMES , *DNA replication - Abstract
Simple Summary: MCM2-7, evolutionarily conserved and essential for DNA replication, functions as the central factor for the eukaryotic replicative DNA helicase. Here, we summarize the roles of MCM2-7 in the initiation and progression of replication forks, with a particular focus on the assembly of the replication complex and its regulation. We also describe the molecular details of the steps required for the transition from the inactive MCM2-7 double hexamer to an active replication fork. In this review, we summarize the processes of the assembly of multi-protein replisomes at the origins of replication. Replication licensing, the loading of inactive minichromosome maintenance double hexamers (dhMCM2-7) during the G1 phase, is followed by origin firing triggered by two serine–threonine kinases, Cdc7 (DDK) and CDK, leading to the assembly and activation of Cdc45/MCM2-7/GINS (CMG) helicases at the entry into the S phase and the formation of replisomes for bidirectional DNA synthesis. Biochemical and structural analyses of the recruitment of initiation or firing factors to the dhMCM2-7 for the formation of an active helicase and those of origin melting and DNA unwinding support the steric exclusion unwinding model of the CMG helicase. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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