Cohesin-Mediated Genome Architecture Does Not Define DNA Replication Timing Domains

Cohesin-Mediated Genome Architecture Does Not Define DNA Replication Timing Domains

3D genome organization is strongly predictive of DNA replication timing in mammalian cells. This work tested the extent to which loop-based genome architecture acts as a regulatory unit of replication timing by using an auxin-inducible system for acute cohesin ablation. Cohesin ablation in a populat...

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Bibliographic Details
Main Authors: Phoebe Oldach, Conrad A. Nieduszynski
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Genes
Subjects:
Replication timing 1
Cohesin 2
Genome architecture 3
Chromatin interactions 4
DNA
Online Access:http://www.mdpi.com/2073-4425/10/3/196
Description
Summary:3D genome organization is strongly predictive of DNA replication timing in mammalian cells. This work tested the extent to which loop-based genome architecture acts as a regulatory unit of replication timing by using an auxin-inducible system for acute cohesin ablation. Cohesin ablation in a population of cells in asynchronous culture was shown not to disrupt patterns of replication timing as assayed by replication sequencing (RepliSeq) or BrdU-focus microscopy. Furthermore, cohesin ablation prior to S phase entry in synchronized cells was similarly shown to not impact replication timing patterns. These results suggest that cohesin-mediated genome architecture is not required for the execution of replication timing patterns in S phase, nor for the establishment of replication timing domains in G1.
ISSN:2073-4425

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