Litcius/Paper detail

Human ORC/MCM density is low in active genes and correlates with replication time but does not delimit initiation zones

Nina Kirstein, Alexander Buschle, Xia Wu, Stefan Krebs, Helmut Blum, Elisabeth Kremmer, Ina Vorberg, Wolfgang Hammerschmidt, Laurent Lacroix, Olivier Hyrien, Benjamin Audit, Aloys Schepers

2021eLife39 citationsDOIOpen Access PDF

Abstract

Eukaryotic DNA replication initiates during S phase from origins that have been licensed in the preceding G1 phase. Here, we compare ChIP-seq profiles of the licensing factors Orc2, Orc3, Mcm3, and Mcm7 with gene expression, replication timing, and fork directionality profiles obtained by RNA-seq, Repli-seq, and OK-seq. Both, the origin recognition complex (ORC) and the minichromosome maintenance complex (MCM) are significantly and homogeneously depleted from transcribed genes, enriched at gene promoters, and more abundant in early- than in late-replicating domains. Surprisingly, after controlling these variables, no difference in ORC/MCM density is detected between initiation zones, termination zones, unidirectionally replicating regions, and randomly replicating regions. Therefore, ORC/MCM density correlates with replication timing but does not solely regulate the probability of replication initiation. Interestingly, H4K20me3, a histone modification proposed to facilitate late origin licensing, was enriched in late-replicating initiation zones and gene deserts of stochastic replication fork direction. We discuss potential mechanisms specifying when and where replication initiates in human cells.

Topics & Concepts

Minichromosome maintenanceOrigin recognition complexLicensing factorBiologyDNA replication factor CDT1Origin of replicationPre-replication complexReplication timingGeneticsDNA replicationGenePromoterEukaryotic DNA replicationCell biologyComputational biologyGene expressionDNA Repair MechanismsGenomics and Chromatin DynamicsMolecular Biology Techniques and Applications