1. Academic Validation
  2. CryoEM structures of human CMG-ATPγS-DNA and CMG-AND-1 complexes

CryoEM structures of human CMG-ATPγS-DNA and CMG-AND-1 complexes

  • Nucleic Acids Res. 2020 Jul 9;48(12):6980-6995. doi: 10.1093/nar/gkaa429.
Neil J Rzechorzek 1 Steven W Hardwick 1 Vincentius A Jatikusumo 1 Dimitri Y Chirgadze 1 Luca Pellegrini 1
Affiliations

Affiliation

  • 1 Department of Biochemistry, Tennis Court Road, Cambridge CB2 1GA, UK.
Abstract

DNA unwinding in eukaryotic replication is performed by the Cdc45-MCM-GINS (CMG) helicase. Although the CMG architecture has been elucidated, its mechanism of DNA unwinding and replisome interactions remain poorly understood. Here we report the cryoEM structure at 3.3 Å of human CMG bound to fork DNA and the ATP-analogue ATPγS. Eleven nucleotides of single-stranded (ss) DNA are bound within the C-tier of MCM2-7 AAA+ ATPase domains. All MCM subunits contact DNA, from MCM2 at the 5'-end to MCM5 at the 3'-end of the DNA spiral, but only MCM6, 4, 7 and 3 make a full set of interactions. DNA binding correlates with nucleotide occupancy: five MCM subunits are bound to either ATPγS or ADP, whereas the apo MCM2-5 interface remains open. We further report the cryoEM structure of human CMG bound to the replisome hub AND-1 (CMGA). The AND-1 trimer uses one β-propeller domain of its trimerisation region to DOCK onto the side of the helicase assembly formed by Cdc45 and GINS. In the resulting CMGA architecture, the AND-1 trimer is closely positioned to the fork DNA while its CIP (Ctf4-interacting peptide)-binding helical domains remain available to recruit partner proteins.

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