Abstract
Once-per-cell cycle replication is regulated through the assembly onto chromatin of multisubunit protein complexes that license DNA for a further round of replication. Licensing consists of the loading of the hexameric MCM2-7 complex onto chromatin during G1 phase and is dependent on the licensing factor Cdt1. In vitro experiments have suggested a two-step binding mode for minichromosome maintenance (MCM) proteins, with transient initial interactions converted to stable chromatin loading. Here, we assess MCM loading in live human cells using an in vivo licensing assay on the basis of fluorescence recovery after photobleaching of GFP-tagged MCM protein subunits through the cell cycle. We show that, in telophase, MCM2 and MCM4 maintain transient interactions with chromatin, exhibiting kinetics similar to Cdt1. These are converted to stable interactions from early G1 phase. The immobile fraction of MCM2 and MCM4 increases during G1 phase, suggestive of reiterative licensing. In late G1 phase, a large fraction of MCM proteins are loaded onto chromatin, with maximal licensing observed just prior to S phase onset. Fluorescence loss in photobleaching experiments show subnuclear concentrations of MCM-chromatin interactions that differ as G1 phase progresses and do not colocalize with sites of DNA synthesis in S phase.
Highlights
MCM2–7 loading onto chromatin licenses origins for replication
MCM4 was chosen because it was shown to interact with the GINS complex [42], and its phosphorylation by Cdc7 facilitates the interaction with Cdc45 on chromatin [56]
A Licensing Assay in Live Human Cells—Functional imaging was used to assess the dynamics of minichromosome maintenance (MCM) proteins within live human cells
Summary
MCM2–7 loading onto chromatin licenses origins for replication. Results: MCMs exhibit transient interactions with chromatin in late mitosis, stable binding in G1 phase and increased loading in late G1 phase. The integrity of genomic information is preserved through the periodic assembly and disassembly of essential prereplication complexes at replication origins This process, described as chromatin “licensing,” involves the loading of the heterohexameric MCM2–7 (minichromosome maintenance) protein complex onto chromatin by the origin recognition complex (ORC) and two essential loading factors, Cdc6 [15] and Cdt1 [16, 17]. The timing and extent of MCM loading onto chromatin must be accurately controlled through the cell cycle and coordinated with S phase onset Both underlicensing and overlicensing have been linked to DNA replication stress, genomic instability, and malignant transformation [23,24,25]. Our findings suggest multiple levels of regulation of MCM binding to chromatin within the live cell nucleus, taking place during both mitosis and at the G1-to-S phase transition
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
