Litcius/Paper detail

Where and when to start: Regulating DNA replication origin activity in eukaryotic genomes

Clare S.K. Lee, Matthias Weiβ, Stephan Hamperl

2023Nucleus26 citationsDOIOpen Access PDF

Abstract

In eukaryotic genomes, hundreds to thousands of potential start sites of DNA replication named origins are dispersed across each of the linear chromosomes. During S-phase, only a subset of origins is selected in a stochastic manner to assemble bidirectional replication forks and initiate DNA synthesis. Despite substantial progress in our understanding of this complex process, a comprehensive 'identity code' that defines origins based on specific nucleotide sequences, DNA structural features, the local chromatin environment, or 3D genome architecture is still missing. In this article, we review the genetic and epigenetic features of replication origins in yeast and metazoan chromosomes and highlight recent insights into how this flexibility in origin usage contributes to nuclear organization, cell growth, differentiation, and genome stability.

Topics & Concepts

BiologyOrigin recognition complexDNA re-replicationChromatinPre-replication complexGenomeDNA replicationEukaryotic DNA replicationGeneticsOrigin of replicationControl of chromosome duplicationReplication timingComputational biologyLicensing factorEpigeneticsDNAGeneDNA Repair MechanismsGenomics and Chromatin Dynamics