DNA replication and polymer chain duplication reshape the genome in space and time

D’Asaro, Dario; Tortora, Maxime M. C.; Vaillant, Cédric; Arbona, Jean-Michel; Jost, Daniel

doi:10.1101/2024.03.12.584628

2024

DOI: 10.1101/2024.03.12.584628

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DNA replication and polymer chain duplication reshape the genome in space and time

Dario D’Asaro,

Maxime M. C. Tortora,

Cédric Vaillant

et al.

Abstract: In eukaryotes, DNA replication constitutes a complex process whereby multiple origins are stochastically fired, and from which the replication machinery proceeds along chromosomes to achieve the faithful synthesis of two identical copies of the genome during the S-phase of the cell cycle. Experimental evidence show a functional correlation between the dynamics of replication and the spatial organization of the genome inside cell nuclei, suggesting that the process of replicating DNA may impact chromosome foldi… Show more

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Modeling the 3D Spatiotemporal Organization of Chromatin Replication

Forte,

Buonomo,

Cook

et al. 2024

PRX Life

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We propose a polymer model to investigate the dynamics of chromatin replication in three dimensions (PolyRep). Our results indicate that replication complexes, the replisomes, may self-assemble during the process and replicate chromatin by extruding it (immobile replisome) or by moving along the template filament (tracking replisome), reconciling previous discordant experimental evidence in favour of either scenario. Importantly, the emergence of one of the two morphologies depends in a major way on the replication origin distribution as well as on the presence of nonspecific interactions between unreplicated chromatin and firing factors—polymerases and other components of the replisome. Nonspecific interactions also appear instrumental to creating clusters of factors and replication forks, structures akin to the replication foci observed in mammalian cells . PolyRep simulations predict different mechanisms for foci evolution, including unanticipated loop-mediated fusion dynamics. We suggest that cluster formation, which our model suggests to be a generic feature of chromatin replication, provides a hitherto underappreciated but robust pathway to avoid stalled or faulty forks, which would otherwise diminish the efficiency of the replication process. Published by the American Physical Society 2024

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Modeling the 3D Spatiotemporal Organization of Chromatin Replication

Forte,

Buonomo,

Cook

et al. 2024

PRX Life

View full text Add to dashboard Cite

show abstract

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DNA replication and polymer chain duplication reshape the genome in space and time

Cited by 1 publication

References 90 publications

Modeling the 3D Spatiotemporal Organization of Chromatin Replication

Modeling the 3D Spatiotemporal Organization of Chromatin Replication

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